Chapter 3 - Home Gateway Utilities

Transcription

RTTE TCF
Product description:
Wireless Router
Manufacture:
ASUSTek Computer Inc.
Brand:
ASUS
Type/model number:
WL-500b
Technical Construction file in accordance with R&TTE Annex IV
Under the provisions if Annex IV point 4 of the R&TTE directive 1999/5/EC of the European Parliament
and of the council of 9 March on Radio equipment and Telecommunications Terminal Equipment
(R&TTE directive) and the mutual recognition of their conformity,
We, the undersigned,
Company
Address, City
Country
Phone number
Fax number
E-mail
ASUSTeK Computer Inc.
4/F, 150, Li-Te Rd., Peitou, Taipei,
Taiwan 112
886-2-28943447
886-2-28950113
[email protected]
Have established a Technical Construction File as specified below to be presented to the Notified Body
for his opinion and to be kept available to the relevant national authorities of any Member State for
inspection purpose:
Item number
01
02
Technical Document description
Technical File in accordance with R&TTE directive Annex II point 4
Declaration of conformity to specific test suites described in R&TTE directive Annex III
For the following product:
Product Description / Supplementary Info
Manufacturer
Brand
Type
Wireless Router
ASUSTeK COMPUTER INC.
ASUS
WL-500b
The Technical Construction File as specified above will be kept for a period ending at least 10 years
after the last product has been manufactured at the disposal of the relevant national authorities of any
Member State for inspection purpose,
Draw up in
Data
Taiwan
2003/5/22
Taiwan 112
Signature & company stamp
LawrenceYu / R&D Engineer
Technical Construction file in accordance with R&TTE Annex II Point 4
Under the provisions if Annex II point 4 of the R&TTE directive 1999/5/EC of the European Parliament
and of the council of 9 March on Radio equipment and Telecommunications Terminal Equipment
(R&TTE directive) and the mutual recognition of their conformity,
We, the undersigned,
Company
Address, City
Country
Phone number
Fax number
E-mail
Taiwan 112
886-2-28943447
886-2-28950113
[email protected]
Have established a Technical Construction File as specified below to enable assessment of the product
conformity with the essential requirements of the R&TTE directive:
Item number
01
02a
02b
02c
02d
02e
02f
03a
03b
04
05
06
07
Technical Document description
Block diagram
Circuit diagram
PCB layout
Part list
Exterior photographs
Interior photographs
Label information
Technical description
User manual
R&TTE standard list
RF-EMC-LVD test report and corresponding annexes
Copy of the R&TTE Declaration of Conformity (DOC)
Product Quality Assurance documents
For the following product:
Manufacturer
Brand
Type
Wireless Router
ASUS
WL-500b
The Technical File as specified above will be kept for a period ending at least 10 years after the last
product has been manufactured at the disposal of the relevant national authorities of any Member State
for inspection purpose,
Draw up in
Data
Taiwan
2003/5/22
ASUSTe k Computer Inc.
Taiwan 112
Block Diagram
HHM1520
MMPA742G
AS-179
Switch
BCM2050
HHM1520
EEPROM
BCM4306
Mini-PCI
interface
BPF
AS-179
Switch
Circuit Diagram
A
B
C
D
E
4
4
+5V_LPT
+5VDC/2A POWER
CONNECTOR
+5V
J12
GND2
2
IN
1
DC+ 1
MLB-321611-0120P-N1
L19
F3
2
1
GND1
3
DC- 1
Hole diameter 50 miles
Pad diameter 100 miles
2
LB11
1
LB12
2
+1.8V_MINI PCI
MINISMDM160
R237
2K
1
10UH3A/DIP
LB2
12K
+5V
?(B0603/0.5A/120R)
3
+1.8V_4702
2
D9
C181
L15
XP162A12A6PR
LB1
C182
C183
D8
1
100NF
B240LA
R235
39.2K(1%) C174
?(470PF)
2
1
+1.8V_5325
C173
47UF/10V
3
LB3
500mA
B0603/0.5A/120R
U15
R239
1
2
3
2
TL431ACD
470UF/16V-E/C
C187
100NF
22UH/1A
Q3
2
4
2
2
500mA
B0603/0.5A/120R
MAC4DLM
2
?(1500PF/2KV)
3
B0603/0.5A/120R
1
C186
100NF
R238
470UF/16V-E/C
C180
Q4
1
1
L20
MLB-321611-0120P-N1
1
DC_POWER_JACK_3P
2
10K
EXT/
VDD
GND
5
Vout(FB)
C175
47UF/10V
4
CE
XC6365B
R236
48.7K(1%)
C172
10UF/10V
R167
0
+3.3V_DIG
+3.3V_DIG
U30
MINIB_+3V
LB7
+5V
3
2
1
C185
10UF/10V
VIN
VOUT
ADJ
VOUT
2
R206
4.7K
0/temp
4
C184
10UF/10V
R177
?(4.7K)
SW_+3V
AIC1084-33
2
?(0)
R176
?(4.7K)
4702_GPIO[7:0]
4,5,6
LB9
R228
B0603/0.5A/120R
Q6
PMBS3904
R168
4702_GPIO3
Q5
1
WAN_+3V
LB10
?(PMBS3904)
C49
100NF
1
470
B0603/0.5A/120R
1
2
2
R1
0
R2
4.7K
L14
1
1
2
0/temp
C
Chassis GND
Title
Signal GND
<Title>
Size
B
Date:
A
B
C
D
Document Number
<Doc>
Tuesday, April 29, 2003
Rev
R1.00
Sheet
E
2
of
12
A
B
C
D
E
U3A
4
R78
33
SD_CLK 1
L18
2
1
MLB-160808-0120A-N2
H21
H22
G19
G20
G21
G22
F19
F20
F21
F22
E19
E20
SD_BS0
SD_BS1
E22
E21
SD_DQM0
SD_DQM1
SD_DQM2
SD_DQM3
C20
D22
D21
D20
SD_CKE
C21
C22
B22
A22
B21
A21
SD_CS
SD_RAS#
SD_CAS#
SD_WE#
SDRAM_ADDR0
SDRAM_ADDR1
SDRAM_ADDR2
SDRAM_ADDR3
SDRAM_ADDR4
SDRAM_ADDR5
SDRAM_ADDR6
SDRAM_ADDR7
SDRAM_ADDR8
SDRAM_ADDR9
SDRAM_ADDR10
SDRAM_ADDR11
SDRAM_BA0
SDRAM_BA1
SDRAM_DQM0
SDRAM_DQM1
SDRAM_DQM2
SDRAM_DQM3
SDRAM_CKE
SDRAM_CLK
SDRAM_CS_L
SDRAM_RAS_L
SDRAM_CAS_L
SDRAM_WE_L
SD_DQ0
SD_DQ1
SD_DQ2
SD_DQ3
SD_DQ4
SD_DQ5
SD_DQ6
SD_DQ7
SD_DQ8
SD_DQ9
SD_DQ10
SD_DQ11
SD_DQ12
SD_DQ13
SD_DQ14
SD_DQ15
SD_DQ16
SD_DQ17
SD_DQ18
SD_DQ19
SD_DQ20
SD_DQ21
SD_DQ22
SD_DQ23
SD_DQ24
SD_DQ25
SD_DQ26
SD_DQ27
SD_DQ28
SD_DQ29
SD_DQ30
SD_DQ31
C15
A16
B16
C16
A17
B17
C17
D17
A18
B18
C18
A19
B19
C19
A20
B20
H20
H19
J22
J21
J20
J19
K22
K21
K20
L22
L21
L20
M22
M21
M20
M19
SDRAM_DATA0
SDRAM_DATA1
SDRAM_DATA2
SDRAM_DATA3
SDRAM_DATA4
SDRAM_DATA5
SDRAM_DATA6
SDRAM_DATA7
SDRAM_DATA8
SDRAM_DATA9
SDRAM_DATA10
SDRAM_DATA11
SDRAM_DATA12
SDRAM_DATA13
SDRAM_DATA14
SDRAM_DATA15
SDRAM_DATA16
SDRAM_DATA17
SDRAM_DATA018
SDRAM_DATA19
SDRAM_DATA20
SDRAM_DATA21
SDRAM_DATA22
SDRAM_DATA23
SDRAM_DATA24
SDRAM_DATA25
SDRAM_DATA26
SDRAM_DATA27
SDRAM_DATA28
SDRAM_DATA29
SDRAM_DATA30
SDRAM_DATA31
BCM4702
2
C137
?(24PF)
SD_A0
SD_A1
SD_A2
SD_A3
SD_A4
SD_A5
SD_A6
SD_A7
SD_A8
SD_A9
SD_A10
SD_A11
5 A[21:0]
D[15:0]
U3B
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
A21
Y21
Y20
AA22
AB22
AB21
AA21
AB20
AA20
AB19
AA19
Y19
AB18
AA18
Y18
AB17
AA17
Y17
AB16
AA16
Y16
AB15
AB13
Y7
AA7
AB7
Y8
EIF_MISC_CS#
EIF_FLASH_CS#
5 EIF_MISC_CS#
EB_A0
EB_A1
EB_A2
EB_A3
EB_A4
EB_A5
EB_A6
EB_A7
EB_A8
EB_A9
EB_A10
EB_A11
EB_A12
EB_A13
EB_A14
EB_A15
EB_A16
EB_A17
EB_A18
EB_A19
EB_FLASH_A20
EB_FLASH_A21
EB_D0
EB_D1
EB_D2
Out
EB_D4
EB_D5
EB_D6
EB_D7
EB_D8
EB_D9
EB_D10
EB_D11
EB_D12
EB_D13
EB_D14
EB_D15
EB_FLASH_OE_L
EB_FLASH_WE_L
EB_PCMCIA_WAIT_L
EB_PCMCIA_REG_L
EB_SYNC_TA_L
EB_SYNC_CLK
AA13
Y13
W13
AB12
AA12
Y12
W12
AB11
AA11
Y11
W11
AB10
AA10
Y10
W10
AB9
D0
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15
AA8
AB8
Y9
AA9
AB6
AA6
EIF_OE#
EIF_WE#
EIF_WAIT#
5
4
EIF_OE# 5
EIF_WE# 5
EIF_WAIT# 5
EB_PCMCIA_CE1_L
EB_PCMCIA_CE2_L
EB_SYNC_CS_L
EB_FLASH_CS_L
BCM4702
D14
D15
R161
?(10K)
1
1
HEATSINK1
R147
10K 2
2
1
+3.3V_DIG
R148
?(10K)
3
D 1 5 = = V C C =>big enian mode
D 1 4 = = G N D => flash 8 bit mode
R 1 4 8 / R 1 4 7 P O P High:16bits word mode
R 1 6 2 P O P L o w:Little enian mode
2
R162
10K
3
?(HEATSINK)
+3.3V_DIG
21
20
SD_DQM1
SD_DQM0
39
15
SD_CS
SD_RAS#
SD_CAS#
SD_WE#
SD_CKE
SD_CLK
19
18
17
16
37
38
BS1
BS0
UDQM
LDQM
NC1
CS#
RAS#
CAS#
WE#
CKE
CLK
40
SD_BS1
SD_BS0
21
20
SD_DQM3
SD_DQM2
39
15
SD_CS
SD_RAS#
SD_CAS#
SD_WE#
SD_CKE
SD_CLK
19
18
17
16
37
38
UDQM
LDQM
NC1
CS#
RAS#
CAS#
WE#
CKE
CLK
1
C134
100NF
+3.3V_DIG
2
C133
100NF
2
C132
100NF
2
2
C131
100NF
1
1
1
1
1
2
C130
100NF
U17
2
4
5
7
8
10
11
13
42
44
45
47
48
50
51
53
SD_DQ16
SD_DQ17
SD_DQ18
SD_DQ19
SD_DQ20
SD_DQ21
SD_DQ22
SD_DQ23
SD_DQ24
SD_DQ25
SD_DQ26
SD_DQ27
SD_DQ28
SD_DQ29
SD_DQ30
SD_DQ31
40
4,6,8 POR_RESET#
28
41
54
6
12
46
52
+3.3V_DIG
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
A21
25
24
23
22
21
20
19
18
8
7
6
5
4
3
2
1
48
17
16
9
10
EIF_WE#
EIF_OE#
EIF_FLASH_CS#
11
28
26
12
14
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
WE#
OE#
CE#
RESET#
WP#/ACC
Vcc
BYTE#
NC
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15/A-1
RY/BY#
Vss1
Vss2
37
47
2
1
13
2
1
29
31
33
35
38
40
42
44
30
32
34
36
39
41
43
45
D0
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
15
27
46
R155
1K
1
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
BS1
BS0
2
2
1
14
27
3
9
43
49
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10/AP
A11
NC2
C21
100NF
R154
?(1K)
C22
100NF
2
23
24
25
26
29
30
31
32
33
34
22
35
36
C20
100NF
W986416DH-6
28
41
54
6
12
46
52
W986416DH-6
U8
VCC1
VCC2
VCC5
VCCQ1
VCCQ2
VCCQ4
VCCQ3
SD_A0
SD_A1
SD_A2
SD_A3
SD_A4
SD_A5
SD_A6
SD_A7
SD_A8
SD_A9
SD_A10
SD_A11
SD_DQ0
SD_DQ1
SD_DQ2
SD_DQ3
SD_DQ4
SD_DQ5
SD_DQ6
SD_DQ7
SD_DQ8
SD_DQ9
SD_DQ10
SD_DQ11
SD_DQ12
SD_DQ13
SD_DQ14
SD_DQ15
1
1
C128
100NF
2
1
1
2
2
2
1
1
2
2
2
1
14
27
3
9
43
49
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
2
4
5
7
8
10
11
13
42
44
45
47
48
50
51
53
C126
C127
100NF 100NF
1
SD_BS1
SD_BS0
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10/AP
A11
NC2
C125
100NF
VSS3
VSS2
VSS
VSSQ1
VSSQ2
VSSQ4
VSSQ3
2
23
24
25
26
29
30
31
32
33
34
22
35
36
C122
100NF
VSS3
VSS2
VSS
VSSQ1
VSSQ2
VSSQ4
VSSQ3
SD_A0
SD_A1
SD_A2
SD_A3
SD_A4
SD_A5
SD_A6
SD_A7
SD_A8
SD_A9
SD_A10
SD_A11
C19
C18
100NF 100NF
VCC1
VCC2
VCC5
VCCQ1
VCCQ2
VCCQ4
VCCQ3
U5
1
1
+3.3V_DIG
R150
0
1
2
D15
1
2
A0
2
R152
?(R)
AM29LV320DT-90EI
2
C117
100NF
1
1
Title :
Engineer:
2-CPU&MEMORY
Size
Project Name
Rev
C
Date:
A
B
C
D
R1.0
Sheet
E
3
of
12
A
B
C
D
E
+3.3V_DIG
+1.8V_5325
L6
1
C43
100NF
2
LED9
+1.8V_5325
120 OHM/100MHZ
1
1
1
C44
1
C110
4.7UF/10V
1
SW_+3V
R179
+
LED1A_LINK/ACT
2
LED-SW1
LED11
2
2
1NF
2
C42
100NF
2
C41
100NF
2
C40
100NF
1
1
1
2
C39
?(100NF)
2
1
2
C38
100NF
2
2
+ C37
10UF/16V
1
1
1
EPHY_VDDPLL
+ C36
10UF/16V
+
330
R180
LED2A_LINK/ACT
2
L7
C53
100NF
SW_+3V
LED-SW2
LED13
C111
4.7UF/10V
1
+
330
R181
1
19
12
13
14
17
18
20
2
2
2
*R137/R134:External supply clock,
MII0_TXEN
when U9 No pop and CPU not setting.
*U13,R137,R134:Together POP or No pop
24
11
MII0_MDC
MII0_MDIO
2
1
C15
2
1
61
1
27PF
25MHZ
X1
62
3
POR_RESET#
3,6,8
1
27PF
1
2
3
128
SW_+3V
2
C16
2
C118
100NF
SW_+3V
U9
R128
?(4.7K)
R132
?(4.7K)
8
7
6
5
1
2
3
4
Vcc
CS
NC
SK
ORG/NC DI
GND
DO
AT93C46
R139
R141
R142
R143
R144
R149
R151
R156
R157
R160
R153
?(4.7K)
?(4.7K)
?(4.7K)
?(4.7K)
?(4.7K)
?(4.7K)
4.7K
?(4.7K)
?(4.7K)
?(4.7K)
4.7K
33
R88 2
1
1
R87
33
ENFDXFLOW
ENHDXFLOW
HW_FWDG_EN
MDIX_DIS
MII_FDX
MII_SPD100
CPU_EPROM_SEL
MII_7WIRE_SEL
QOS_MODE
FREQ1
FREQ0
23
100
101
40
49
97
96
47
95
43
37
36
7
8
6
5
2
R117
1
2
57
59
65
76
77
88
89
60
TD5+
TD5RD5+
RD5LED5A#
LED5B#
LED5C#
TXC
TXD3/QOS_PORTSEL0
TXD2/QOS_PORTSEL1
TXD1/QOS_FC_DIS
TXD0
TXEN
TXER
TD4+
TD4RD4+
RD4LED4A#
LED4B#
LED4C#
CRS
COL
TD3+
TD3RD3+
RD3LED3A#
LED3B#
LED3C#
BCM5325M
MDC
MDIO
XTALI/CK25
XTALO
TD2+
TD2RD2+
RD2LED2A#
LED2B#
LED2C#
RST#
LINK#
ENFDXFLOW
ENHDXFLOW
HW_FWDG_EN
MDIX_DIS
MII_FDX#
MII_SPD100#
CPU_EPROM_SEL
MII_7WIRE
QOS_MODE
FREQ[1]
FREQ[0]
TD1+
TD1RD1+
RD1LED1A#
LED1B#
LED1C#
LEDMODE2
LEDDATA/LEDMODE1
LEDCLK/LEDMODE0
SCK
SS#
MOSI
MISO
TEST0
TEST1
RDAC
VDDBIAS
1.27K
GNDXTAL
63
64
121
108
102
50
35
28
16
66
75
78
87
90
GNDP7
GNDP6
GNDP5
GNDP4
GNDP3
GNDP2
GNDP1
GNDA5
GNDA4
GNDA3
GNDA2
GNDA1
GNDPLL
GNDBIAS
GNDC5
GNDC4
GNDC3
GNDC2
GNDC1
NC11
NC10
NC9
NC8
NC7
NC6
120
109
51
27
15
46
48
52
53
54
55
NC1
NC2
NC3
NC4
NC5
BCM5325
94
93
92
91
123
124
125
83
84
85
86
118
119
122
71
72
73
74
110
111
112
70
69
68
67
105
106
107
99
127
126
LED2A_LINK/ACT
MII0_COL
MII0_CRS
MII0_MDIO
MII0_MDC
BCM4702
R183
?(10K)
2
2
2
R185
?(10K)
R184
?(10K)
1
2
LED_MODE
LED_DATA
LED_CLK
41
42
56
2.7
58
1 R66
1 R84
1 R83
afe_pwrdwn
BCM4702
2
2
2
2
49.9(1%)
49.9(1%)
49.9(1%)
49.9(1%)
SW_+3V
U10
3
4
32
38
39
R76
1
NC2
TXTX+
RXRX+
R59
1
1
2
2
P4REF1
75
C77
C76
HEATSINK2
R60
1
100PF
100NF
2
P4REF2
C
TX4P
RX4M
RX4P
C
R81
CMT3 1
R80
2
75
2
1
C87
2
TX3M
R85
1
100PF
2
C
B15
A15
P3REF2
TX3P
RX3M
RX3P
75
C
R94
CMT2 1
2
1
1
75
C92
C
100NF
P2REF1
2
P2REF2
TX2M
R96
100PF
C
1
TX2P
RX2M
RX2P
75
R207
R107
CMT1 1
2
75
C100
2
B14
A14
D13
C13
B13
8
32
31
30
29
28
27
26
25
8
24
23
22
21
20
19
18
17
2
75
75
C99
2
R/1206
C
C94
100NF
2
1
TX1M
R227
TX1P
RX1M
RX1P
75
100PF
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
7
42
44
NC4
2
R71
0
C46
100NF
1
2
1
2
R110
0
C45
100NF
1
2
6
5
4
3
2
1
2
R115
0
C97
100NF
1
2
1
7
RXM4
RXP4
TCT4
TXM4
TXP4
TXP3
TXM3
TCT3
RXP3
RXM3
RXM2
RXP2
TCT2
TXM2
TXP2
TXP1
TXM1
TCT1
RXP1
RXM1
6
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
TD+1
TD-1
NC1
RD+1
RD-1
RD-2
RD+2
NC2
TD-2
TD+2
TD+3
TD-3
NC3
RD+3
RD-3
RD-4
RD+4
NC4
TD-4
TD+4
LF8731
TX+4
TX-4
NC8
RX+4
RX-4
RX-3
RX+3
NC7
TX-3
TX+3
TX+2
TX-2
NC6
RX+2
RX-2
RX-1
RX+1
NC5
TX-1
TX+1
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
RX4M
RX4P
CMT4
TX4M
TX4P
RX3P
RX3M
CMT3
TX3P
TX3M
RX2M
RX2P
CMT2
TX2M
TX2P
RX1P
RX1M
CMT1
TX1P
TX1M
2
5
4
3
2
1
8
7
6
5
4
3
2
1
R91
1
D14
C14
40
39
38
37
36
35
34
33
P3REF1
75
C88
100NF
TX4M
75
1
R190
100NF
2
1
TXTX+
75
A11
0
2
C81
1
C
J13
C102
?(100NF)
2
afe_dac0
afe_dac1
afe_dac2
afe_dac3
afe_dac4
1
1
1
1
+48V
1
led0_l
led1_l
led2_l
led3_l
afe_gain0
afe_gain1
3
R118
2
B10
A10
C9
B9
afe_adc0
afe_adc1
afe_adc2
afe_adc3
afe_adc4
afe_adc5
49.9(1%)
49.9(1%)
49.9(1%)
49.9(1%)
SW_+3V
1
A13
C12
B12
A12
C11
B11
afe_reset__l
afe_cal
2
2
2
2
TXP1
TXM1
RXP1
RXM1
U3D
afe_clk64
1
1
1
1
TXP2
TXM2
RXP2
RXM2
SW_+3V
HeatSink
C10
49.9(1%)
49.9(1%)
49.9(1%)
49.9(1%)
BCM5325_TDP1
BCM5325_TDN1
BCM5325_RDP1
BCM5325_RDN1
10K
10K
10K
2
MII0_MDIO
MII0_MDC
R108
R109
R111
R112
R101
R116
R114
R113
1
R21
R22
2
2
2
2
TXP3
TXM3
RXP3
RXM3
LED1A_LINK/ACT
2
MII0_RXCLK
MII0_RXDV/UART_SIN
MII0_RXER
MII0_RXCLK
MII0_CRS
1
1
1
1
SW_+3V
1
R19
R20
MII0_TXCLK
MII0_TXEN/UART_DSR_L
MII0_TXER/UART_GPO1
V22
U20
T22
49.9(1%)
49.9(1%)
49.9(1%)
49.9(1%)
BCM5325_TDP2
BCM5325_TDN2
BCM5325_RDP2
BCM5325_RDN2
2
MII0_CRS
V21
V20
V19
R69
R70
R72
R73
SW_+3V
1
MII0_TXCLK
MII0_TXEN
MII0_RXD0
MII0_RXD1
MII0_RXD2
MII0_RXD3
2
2
2
2
BCM5325_TDP3
BCM5325_TDN3
BCM5325_RDP3
BCM5325_RDN3
LED3A_LINK/ACT
R61
T21
T20
U22
U21
1
1
1
1
TXP4
TXM4
RXP4
RXM4
SW_+3V
82
81
80
79
113
116
117
CMT4 1
MII0_RXD0
MII0_RXD1/UART_RI_L
MII0_RXD2/UART_DCD_L
MII0_RXD3/UART_CTS_L
R82
R77
R75
R74
BCM5325_TDP4
BCM5325_TDN4
BCM5325_RDP4
BCM5325_RDN4
LED4A_LINK/ACT
U3F
MII0_TXD0/UART_GPO0
MII0_TXD1/UART_DTR_L
MII0_TXD2/UART_RTS_L
MII0_TXD3/UART_SOUT
330
SW_+3V
RXRX+
W22
W21
W20
Y22
LED4A_LINK/ACT
2
LED-SW4
2
MII0_TXD0
MII0_TXD1
MII0_TXD2
MII0_TXD3
R182
+
1
MII0_RXCLK
R89
?(10K) 1
R90
?(10K) 1
R92
?(10K) 1
1
2
MII0_RXCLK1
2
MII0_RXD3
MII0_RXD2
MII0_RXD1
MII0_RXD0
MII0_CRS
R95
33
SW_+3V
RXC
RXD3
RXD2
RXD1
RXD0
RXDV
RXER
VDDPLL
26
34
33
31
30
29
25
330
LED14
VDDXTAL
MII0_TXCLK0
2
MII0_TXD3
MII0_TXD2
MII0_TXD1
MII0_TXD0
MII0_TXEN
VDDA1
VDDA2
VDDA3
VDDA4
VDDA5
1
VDDC1
VDDC2
VDDC3
VDDC4
VDDC5
MII0_TXCLK
10
22
44
98
104
114
U11
VDDP1
VDDP2
VDDP3
VDDP4
VDDP5
VDDP6
9
21
45
103
115
LED-SW3
R100
33
4
LED3A_LINK/ACT
2
2
2
1NF
2
2
C103
100NF
2
120 OHM/100MHZ
1
C101
1
1
1
1
C72
100NF
2
C89
100NF
2
C78
100NF
2
C75
100NF
1
1
1
C58
10UF/16V
2
2
+
2
+ C79
10UF/16V
4
1
1
1
EPHY_VDDXTAL
8
7
6
5
4
3
2
1
8
7
6
5
4
3
NC3
43
2
1
NC1
1
41
C
JACK-40P
R191
C
R/1206
Title :
Engineer:
Size
Project Name
Rev
C
Date:
A
B
C
D
R0.6
Sheet
E
4
of
12
A
B
C
D
E
NOTE: IN PCMICA Mode
A20 = IOWR#
A21 = IORD#
PCMCIA_WP = GPIO0
RESET = GPIO7
4
4
+3.3V_DIG
3 A[21:0]
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
A21
3
D[15:0]
3
D0
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15
R64
?(10K)
COM Port
J11
D0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
D1
D2
D3
D4
D5
D6
D7
A0
A1
A2
A3
+5V
+5V
EIF_OE#
EIF_WE#
4702_GPIO1
3 EIF_OE#
3 EIF_WE#
4,5,6 4702_GPIO[7:0]
R201
10K
3
CON18
+3.3V_DIG
A4
1
2
EIF_WAIT#
5
1
2
3
A VCC
B
GND Y
7432(1)
4,5,6 4702_GPIO[7:0]
+3.3V_DIG
U16
2
EIF_MISC_CS#
3
5
4
1
EIF_WAIT#
EIF_MISC_CS#
C176
100NF
2
R127
10K
2
R130
10K
4702_GPIO7
1
2
Broadcom Corporation
1
1
<OrgAddr1>
<OrgAddr2>
Title
Block Diagram
A
B
C
D
Size
B
Document Number
BCM4702
Date:
Rev
R0.6
Sheet
E
5
of
12
A
B
C
1
1
1
1
C63
C65
100NF
100NF
100NF
2
C66
100NF
2
C64
100NF
2
C67
100NF
2
C62
2
D
E
WAN_+3V
2
R26
10K(1%)
MII1_RXER
4.7K-4R8P
4.7K-4R8P
4.7K-4R8P
4.7K-4R8P
4.7K
2
1
R45
1 RN1A
3 RN1B
5 RN1C
7 RN1D
2
4
6
8
2
4.7K
1
R44
1
WAN_+3V
2
15
4
16
3
5
48
47
46
45
19
MII1_CRS
MII1_RXDV
R33
4.7K
MII1_RXD0
MII1_RXD1
MII1_RXD2
MII1_RXD3
MII1_MDIO
MII1_MDC
1
43
44
2
31
RBIAD
18
1
7
25
COL
RMII_mode/RX_CLK
REPEATER/CRS
RXDV/CRSDV
ISOLATE/RXER
PHYAD4/RXD0
PHYAD3/RXD1
PHYAD2/RXD2
PHYAD1/RXD3
PHYAD0/INTR
MDIO
MDC
42
RST#
XO
VCC25OUT
BURNIN#_L/LED0
SPD100/LED1
DUPLEX/LED2
ANEN/LED3
EPHY_RDN
EPHY_RDP
24
28
3,4,8 POR_RESET#
X2
25MHZ
C54
1
R27
330K
2
18PF
39
LED21
36
20
21
22
23
C52
+3.3V_DIG
+2.5V_DIG
WAN_LINK/ACT
1
2
1
R169
150
2
R34
510
1
2
18PF
LED(WAN)
R192
4.7K
R170
R232
?(4.7K)
2
?(4.7K)
4.7K
40
R194
1
4
2 R41
2 R39
1
1
AC101L
17
2
6
33
30
29
38
37
R46
?(10K)
XI
26
27
1
1
2
4.7K
PDOWN#
SD/FXEN
EPHY_TDN
EPHY_TDP
3
MII1_RXCLK
R65
MII1_COL
RXN
RXP
34
35
2
R38
33
TXN
TXP
1
1
TXC
TXEN
TXD0
TXD1
TXD2
TXD3
TXER
VCC33IN
VCCPLL
1
9
10
11
12
13
14
8
VCC1
VCC2
VCC3
VCC4
2
MII1_TXEN
MII1_TXD0
MII1_TXD1
MII1_TXD2
MII1_TXD3
MII1_TXER
2
4
U6
1
GND1
GND2
GND3
GND4
GND5
GND6
GND7
GND8
MII1_TXCLKR86
10K
2
R37
10K
2
+
R231
?(4.7K)
R40
33
41
32
2
2
+ C51
10UF/16V
1
1
1
1
+2.5V_DIG
R193
4.7K
4.7K
+2.5V_DIG
4.7K
1
R47
0
2
C119
100NF
3
3
U3E
2
MII1_TXD0
MII1_TXD1
MII1_TXD2
MII1_TXD3
A8
B8
C8
D8
MII1_TXCLK
MII1_TXEN
MII1_TXER
B7
C7
D7
MII1_COL
MII1_CRS
B5
A5
MII1_TXD0
MII1_TXD1
MII1_TXD2
MII1_TXD3
MII1_RXD0
MII1_RXD1
MII1_RXD2
MII1_RXD3
MII1_TXCLK
MII1_TXEN
MII1_TXER
MII1_RXCLK
MII1_RXDV
MII1_RXER
MII1_COL
MII1_CRS
MII1_MDIO
MII1_MDC
BCM4702
D5
A6
B6
C6
MII1_RXD0
MII1_RXD1
MII1_RXD2
MII1_RXD3
A7
D6
C5
MII1_RXCLK
MII1_RXDV
MII1_RXER
D4
C4
MII1_MDIO
MII1_MDC
+3.3V_DIG
R58
1K
2
1
2
+2.5V_DIG
+2.5V_DIG
R32
49.9(1%)
2
R31
49.9(1%)
2
R49
49.9(1%)
2
1
1
C61
C69
100NF
100NF
2
<>
2
2
10UF/16V
1
+
C71
1
1
1
3
2
6
8
7
R50 49.9(1%)
2
1
1
4
5
2
1NF
TX+
TXTXCT
H11XX
RD+
RDRDCT
RX+
RXRXCT
NC1
NC2
16
14
15
TX+
TX-
11
9
10
RX+
RX-
TX+
TX-
RX+
RX-
12
13
NC3
NC4
LF8505
C60
2
C68
TD+
TDTDCT
1
1
1
U7
1
R30
75
100NF
2
2
Route this area void of PWR/GND
planes and high speed nets. Also keep
traces short and route as matched
length differential pairs.
1
R29
75
C59
1NF-C1808
2
EPHY_RDN
EPHY_RDP
EPHY_TDN
EPHY_TDP
C
R188
R/1206
1
1
R189
R/1206
Title
<Title>
Size
C
Date:
A
B
C
D
Document Number
<Doc>
Rev
R0.6
Sheet
E
6
of
12
A
B
C
D
E
R63
2GHZ Activity
2GHZ Activity
0
+3.3V_DIG
LED17
4,6,8 4702_GPIO[7:0]
R125
R208
4702_GPIO4
2
1
2
1
+
LED(2GHz)
100
MINIB_+3V
4
2GHZ Activity
2GHZ Activity
PCI_INTA
PCI_CLK_SLOT1
PCI_REQ1
PCI_AD31
PCI_AD29
PCI_AD27
PCI_AD25
PCI_CBE3
PCI_AD23
PCI_AD21
PCI_AD19
PCI_AD17
PCI_CBE2
PCI_IRDY
PCI_CLKRUN
PCI_SERR
PCI_PERR
PCI_CBE1
PCI_AD14
PCI_AD12
PCI_AD10
3
PCI_AD8
PCI_AD7
PCI_AD5
PCI_AD3
PCI_AD1
+1.8V_MINI PCI
+1.8V_MINI PCI
MINIB_+3V
HOLD1
HOLD2
HOLD3
HOLD4
J10
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
63
65
67
69
71
73
75
77
79
81
83
85
87
89
91
93
95
97
99
101
103
105
107
109
111
113
115
117
119
121
123
125
126
127
128
?(0)
TIP
LAN REV1
LAN REV2
LAN REV3
LAN REV4
LAN REV5
LAN REV6
LAN REV7
INTB#
VCC3_1
REV1
GND1
CLK
GND2
REQ#
VCC3_2
AD31
AD29
GND3
AD27
AD25
REV2
C/BE3#
AD23
GND4
AD21
AD19
GND5
AD17
C/BE2#
IRDY#
VCC3_3
CLKRUN#
SERR#
GND6
PERR#
C/BE1#
AD14
GND7
AD12
AD10
GND8
AD08
AD07
VCC3_4
AD05
REV
AD03
VCC5_1
AD01
GND16
AC_SYNC
AC_SDATA_IN1
AC_BIT_CLK
AC_CODEC_CLK
MOD_AUDIO_MON
AUDIO_GND1
SYS_AUDIO_OUT
SYS_AUDIO_OUT GND
AUDIO_GND
NC
+5VA
RING
LAN REV8
LAN REV9
LAN REV10
LAN REV11
LAN_REV12
LAN_REV13
LAN_REV14
VCC5_2
INTA#
REV3
+3.3VAUX1
RST#
VCC3_5
GNT#
GND9
PME#
REV4
AD30
VCC3_6
AD28
AD26
AD24
IDSEL
GND10
AD22
AD20
PAR
AD18
AD16
GND11
FRAME#
TRDY#
STOP#
VCC3_7
DEVSEL#
GND12
AD15
AD13
AD11
GND13
AD09
C/BE0#
VCC3_8
AD06
AD04
AD02
AD00
REV5
REV6
GND14
M66EN
AC_SDATA_OUT
AC_SDATA_IN2
AC_RESET#
REV7
GND15
SYS_AUDIO_IN
SYS_AUDIO_IN GND
AUDIO_GND2
MCPIACT#
+3.3VAUX2
MINI_PCI
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
66
68
70
72
74
76
78
80
82
84
86
88
90
92
94
96
98
100
102
104
106
108
110
112
114
116
118
120
122
124
4
+5V
PCI_INTA
PCI_RST
PCI_GNT1
PCI_PME
PCI_AD30
PCI_AD28
PCI_AD26
PCI_AD24
IDSEL_SLOT1
R23
100
PCI_AD18
PCI_AD22
PCI_AD20
PCI_PAR
PCI_AD18
PCI_AD16
PCI_FRAME
PCI_TRDY
PCI_STOP
PCI_DEVSEL
PCI_AD15
PCI_AD13
PCI_AD11
3
PCI_AD9
PCI_CBE0
PCI_AD6
PCI_AD4
PCI_AD2
PCI_AD0
Slot 1(802.11b/g)
+5V
22
PCI_CLK
1
PCI_CLK_SLOT1
R68
C178
10PF
2
2
2
U3C
PCI_AD31
PCI_AD30
PCI_AD29
PCI_AD28
PCI_AD27
PCI_AD26
PCI_AD25
PCI_AD24
PCI_AD23
PCI_AD22
PCI_AD21
PCI_AD20
PCI_AD19
PCI_AD18
PCI_AD17
PCI_AD16
PCI_AD15
PCI_AD14
PCI_AD13
PCI_AD12
PCI_AD11
PCI_AD10
PCI_AD9
PCI_AD8
PCI_AD7
PCI_AD6
PCI_AD5
PCI_AD4
PCI_AD3
PCI_AD2
PCI_AD1
PCI_AD0
G2
G1
H3
H2
H1
J4
J3
J2
K2
K1
L3
L2
L1
M3
M2
M1
T3
T2
T1
U4
U3
U2
U1
V4
V2
V1
W3
W2
W1
Y3
Y2
Y1
PCI_AD31
PCI_AD30
PCI_AD29
PCI_AD28
PCI_AD27
PCI_AD26
PCI_AD25
PCI_AD24
PCI_AD23
PCI_AD22
PCI_AD21
PCI_AD20
PCI_AD19
PCI_AD18
PCI_AD17
PCI_AD16
PCI_AD15
PCI_AD14
PCI_AD13
PCI_AD12
PCI_AD11
PCI_AD10
PCI_AD9
PCI_AD8
PCI_AD7
PCI_AD6
PCI_AD5
PCI_AD4
PCI_AD3
PCI_AD2
PCI_AD1
PCI_AD0
PCI_CBE3_L
PCI_CBE2_L
PCI_CBE1_L
PCI_CBE0_L
PCI_FRAME_L
PCI_IRDY_L
PCI_TRDY_L
PCI_DEVSEL_L
PCI_STOP_L
PCI_PERR_L
PCI_SERR_L
PCI_PAR
PCI_INTA_L
PCI_INTB_L/EB_STSCHG_L
PCI_RST_L
PCI_CLK
PCI_PME_L
PCI_IDSEL
PCI_REQ0_L
PCI_GNT0_L
PCI_REQ1_L
PCI_GNT1_L
RESERVED1
PCI_CBE3
PCI_CBE2
PCI_CBE1
PCI_CBE0
PCI_FRAME
R20
PCI_IRDY
10K
R19
PCI_TRDY
R14
10K
PCI_DEVSEL
10K
R7
PCI_STOP
R129
10K
PCI_PERR
10K
R159
PCI_SERR
R13
2.7K
PCI_PAR
2.7K
PCI_INTA
2 R18 10K 1
PCI_INTB
R158 1
2
PCI_RST
10K
PCI_CLK
1K
PCI_PME
R8
IDSEL_4710
R93 1 PCI_AD16
2
PCI_REQ0
R11
100
+3.3V_DIG
PCI_GNT0
R9
10K
+3.3V_DIG
PCI_REQ1
R12
10K
+3.3V_DIG
PCI_GNT1
R10 10K
+3.3V_DIG
10K
PCI_CLKRUN
J1
N3
T4
V3
N2
N1
P2
P1
R4
R3
R2
R1
AA2
AA1
E2
E1
E3
K3
G3
F1
F2
F3
P3
+3.3V_DIG
BCM4702
1
1
Title :
Engineer:
Size
Project Name
Rev
C
Date:
A
B
C
D
R0.6
Sheet
E
7
of
12
A
B
C
D
E
U3G
USB2_P
USB2_N
+3.3V_DIG
+3.3V_DIG
U24
C141
10UF/10V
2
4
+3.3V_DIG
(S.W reset to default)
16
15
14
13
12
11
10
9
LED3
R205
2
R195
1
SW1
1
3
C142
330
4702_GPIO6
2
4
0
100NF
PB-Reset default
C143
LED-USB
100NF
2
2
15K
VCC
Rext1
Cext1
Q1
/Q2
CLR2
2B
2A
1
R99
15K
1A
1B
CLR1
/Q1
Q2
Cext2
Rext2
GND
2
R97
1
R178
?(10K)
1
2
3
4
5
6
7
8
1
R196
3.3K
4
74HC123DT
R204
10K
R57
10K
2
1
1
1
+3.3V_DIG
100NF
C108
4.7UF/10V
+
2
1
+5V
+1.8V_4702
C98
1NF
L12
2
2
330UF/16V
L11
120 OHM/100MHZ
2
1
PLLVDD
C73
CE2
NOTE: Route XTAL traces
away from DAC output pins
and add GND guard trace to
separate DAC outputs from
XTAL pins
USB1_C
2
1
1
2
2
C116
10PF
2
C96
1NF
1
C115
22PF
1
2
C114
10NF
2
2
1
2
1
1
1
1
2
2
2
1
1
2
2
1
C138
100NF
2
C136
100NF
A2
1
3
1
2
2
0
EXT_POR_L
1
+3.3V_DIG
PB-RESET
C188
100NF
C120
2
(H.W reset)
2
Y14
E6
E16
E17
E18
F5
F18
G18
K18
N18
T18
U5
U18
V6
V16
V17
V18
NC13
NC14
NC15
NC16
NC17
NC18
NC23
NC22
NC12
NC21
NC20
NC19
NC27
NC26
NC25
NC24
AVDD
W14
PLLVDD
F4
N4
W4
VESD1
VESD2
VESD3
R18
V14
V15
P18
E8
W6
E9
E14
E15
H5
H18
J5
J18
VDDIO2
VDDIO11
VDDIO10
VDDIO1
VDDIO4
VDDIO3
VDDIO5
VDDIO14
VDDIO15
VDDIO9
VDDIO8
VDDIO7
VDDIO6
V9
P5
K4
R5
V8
L4
W8
W16
L19
D16
D10
E5
E7
E10
E11
E12
P4
E13
G5
K5
W7
L5
L18
M5
M18
N19
N5
T5
V5
V7
V10
V11
V12
V13
2
4
R135
240
R136
1
RESET1
VDDIO13
VDDIO12
RESERVED14
RESERVED15
2
0
1
R165
RESERVED6
RESERVED13
RESERVED12
RESERVED16
RESERVED11
RESERVED10
RESERVED9
RESERVED2
RESERVED8
RESERVED7
RESERVED3
RESERVED4
C135
100NF
RESERVED5
TEST-ENABLE
JTAG_TRST_L
JTAG_TDO
JTAG_TDI
JTAG_TCK
JTAG_TMS
AA14
2
1
AB14
Y15
R79
A9
E4
A3
B3
C3
B4
A4
4702_TRST
1
2
?(1K)
+3.3V_DIG
RN2
4702_TDO
4702_TDI
4702_TCK
4702_TMS
7
5
3
1
8
6
4
2
10K-4R8P
D11
D12
D18
D19
G4
H4
P19
T19
U19
W18
W19
+3.3V_DIG
+3.3V_DIG
MAX811SEUS_T
AA3
AB3
AB2
AB1
1
GND
VCC
RESET# MR#
1
4
3
2
2
1
2
3
100
XTAL_OUT
GND13
+3.3V_DIG
R106
XTAL_IN
W15
1
48MHZ
R105
1M
GPIO0/EJTAG_PCST0/EB_PCMCIA_WP
GPIO1/EB_PCMCIA_A20/EJTAG_PCST1
GPIO2/EB_PCMCIA_A21/EB_SYNC_A21
GPIO5/EB_PCMCIA_A24/EJTAG_PCST5
GPIO6/EB_PCMCIA_A25
GPIO7/EJTAG_PC_CLK
AA15
GND22
R138
10K
Y6
AB5
AA5
Y5
W5
AB4
AA4
Y4
GND25
GND12
GND14
GND28
GND24
GND23
GND16
GND1
GND2
GND3
GND4
GND10
GND5
GND15
GND31
GND11
GND26
GND27
GND6
GND7
GND9
GND8
GND17
GND18
GND19
GND20
GND21
GND29
GND30
4702_GPIO0
4702_GPIO1
4702_GPIO2
4702_GPIO3
4702_GPIO4
4702_GPIO5
4702_GPIO6
4702_GPIO7
U14
1
1
1
15K
2
CODEC_RST_L
CODEC_FSYNC/AUDIO_CTRL_DATA
CODEC_SDI/IR_SDI
CODEC_MCLK/AUDIO_LRCK
CODEC_SCLK/AUDIO_CTRL_CLK
CODEC_OFHK_L/AUDIO_SCLK
CODEC_RGDT_L/AUDIO_MCLK
CODEC/_SDO/AUDIO_SDO/IR_SDO
M4
W9
W17
K19
D15
D9
4,5,6 4702_GPIO[7:0]
2
15K
SR05
D2
D3
B1
A1
C2
C1
B2
D1
C104
4.7UF/10V
X3
VDDBUS4
VDDBUS1
VDDBUS3
VDDBUS2
VDDBUS5
R55
D1
U3I
BCM4702
C193
100NF
C139
100NF
VDDCORE1
VDDCORE2
VDDCORE3
VDDCORE4
VDDCORE5
VDDCORE6
R52
2
3
4
1
1
1
U3H
2
C204
?(22PF)
C194
100NF
C197
100NF
2
C198
100NF
2
2
C200
C199
100NF 100NF
BEAD
3
C196
C195
100NF 100NF
1
1
1
1
2
C201
100NF
C
15
C170
100NF
2
C171
100NF
2
2
2
2
1
1
1
1
1
2
2
2
2
1
1
1
1
1
C202
100NF
USB1_P
2
2
1
C168
100NF
+1.8V_4702
L17
2
C164
100NF
2
2.2UH/50mA
3
1
C163
100NF
USB1_N
BEAD
R53
C162
100NF
2
15
1X4P
C144
100NF
AVDD
1
C203
?(22PF)
L16
1
2
C140
100NF
1
2
2
C129
100NF
1
1
C177
100NF
+3.3V_DIG
+3.3V_DIG
2
R54
2
4
6
C189
100NF
L13
120 OHM/100MHZ
2
1
1
J3
1
3
5
C190
100NF
2
2
1
C191
100NF
2
C192
100NF
0.75A/13.1V
2
2
1
1
1
F2
1
N21
N22
N20
1
USB2_P
USB2_N
USB_CTRL2
BCM4702
2
USB1_P
USB1_N
USB_CTRL1
1
P20
P21
P22
+
USB1_P
USB1_N
USB1_C
BCM4702
100NF
POR_RESET#
3,4,6
R166
4702_TRST
4.7K
2
2
+3.3V_DIG
LED15
R240
R56
4702_GPIO0
2
1
POWER_LED
2
+
0
1
100
LED(POWER)
+3.3V_DIG
LED18
R171
R209
4702_GPIO5
2
0
1
2
1
+
LED(PRN)
100
1
1
Title
<Title>
Size
C
Date:
A
B
C
D
Document Number
<Doc>
Rev
R0.6
Sheet
E
8
of
12
A
B
C
D
E
+5V_LPT
RN4
+5V_LPT
R137
R172
R174
R173
220
0
0
220
LPT_D1
/LPT_INIT
LPT_D2
/LPT_SLCTIN
LPT_D3
R175
R186
R187
R197
R198
220
0
220
0
220
LPT_D4
LPT_D5
LPT_D6
LPT_D7
R199
R202
R203
R210
220
220
220
220
220
ACK#(DS1#)
R220
220
BSY(MTR1#)
LPT_PE
R221
220
PE(WDATA#)
LPT_SLCT
R226
220
SCLT(STEP#)
4
7432(1)
5
4
RESET
+5V_LPT
C123
1
100NF
C149
C150
C151
C152
C153
150PF
150PF
150PF
150PF
150PF
150PF
150PF
2
2
U25
+5V_LPT
+3.3V_DIG
4
Y
GND
A
VCC
NC
R225
1M
1
3
2
1
POR_RESET#
3,4,8
1
5
AT7601F
C179 7404(1)
100NF
2
C121
100NF
X4
1
2
GND
1
3 13.5MHZ
C166
22PF
2
NC
VCC
A
GND
Y
LPT_D0
LPT_ACK
LPT_BUSY
LPT_PE
LPT_SLCT
C165
22PF
D0
D1
D2
D3
D4
D5
D6
D7
1
2
3
EIF_OE#
A4
C148
2
GND
NC
INIT#
SLIN#
PD7
PD6
PD5
PD4
PD3
PD2
PD1
NC
Attansic
AT7601F
+3.3V_DIG
1
24
23
22
21
20
19
18
17
16
15
14
13
PD0
ACK#
BUSY
PE
SLCT
VCC
RESET
XTAL2
XAL1/CLKIN
TC
DRQ
DACK#
R222
0
C167
1
2
100NF
C147
36
35
34
33
32
31
30
29
28
27
26
25
150PF
EIF_WE#
U27
C146
150PF C154 150PF C155 150PF C156 150PF C157 150PF C158 150PF C159 150PF C160 150PF C161 150PF
1
1
2
EIF_WE#
EIF_MISC_CS#
C169
1
2
100NF
CS1#
R224
0
C124
100NF
DCON25F
2
CS1#
3
1
R223
?(0)
+5V_LPT
1
14
2
15
3
16
4
17
5
18
6
19
7
20
8
21
9
22
10
23
11
24
12
25
13
2
R218
0
+3.3V_DIG
A
VCC
B
GND Y
2
4
6
8
R219
LPT_BUSY
C145
IOR#
AEN
IOCHRD
DB0
DB1
DB2
DB3
DB4
DB5
DB6
DB7
GND
A0
A1
A2
ERR#
AFD#
STB#
PS/PDIR
PINT
A0
A1
A2
CS2#/A10
CS1#
VCC
IOW#
1
2
I/O CHRDY 3
4
5
6
7
8
9
10
11
12
R200
0
37
38
39
40
41
42
43
44
45
46
47
48
EIF_MISC_CS#
5
PD5(MID0)
LPT_ACK
/LPT_INIT
/LPT_SLCTIN
LPT_D7
LPT_D6
LPT_D5
LPT_D4
LPT_D3
LPT_D2
LPT_D1
I/O CHRDY
4702_GPIO2
/LPT_SLCTIN
/LPT_INIT
/LPT_AUTOFD
U26
4702_GPIO2
U29
PD4(DSKCHG#)
PD7(MID1)
A[21:0]
1
2
3
P1
STB#(DS0#)
ALF#(DRVDEN0)
PD0(INDEX#)
ERR#(HDSEL#)
PD1(TRK0#)
INIT#(DIR#)
PD2(WP#)
SLCTIN(WGATE#)
PD3(RDATA)
100 100
LPT_ERROR#
/LPT_AUTOFD
/LPT_STROBE
A10
4
100 100 100 100
* R223 pop ,R218 no pop:Support SPP & EPP mode.
4,5,6 4702_GPIO[7:0]
4.7K-4R8P
PD6(MTR0#)
* R223 no pop and R218 pop :Support full mode(ECP).
2
4.7K-4R8P
R217
4.7K
R211R212R213R214 R215R216
/LPT_STROBE
3
LPT_ERROR#
/LPT_STROBE
/LPT_AUTOFD
LPT_D0
RN6
1
3
5
7
1
3
5
7
4.7K-4R8P
1
3
5
7
4.7K-4R8P
4
RN5
1
3
5
7
RN3
2
4
6
8
2
4
6
8
2
4
6
8
+5V_LPT
1
EIF_OE#
D[15:0]
7404(1)
Title
<Title>
Size
B
Date:
A
B
C
D
Document Number
<Doc>
Rev
R0.6
Sheet
E
9
of
12
1
2
3
4
U11A
pci_ad31
pci_ad30
pci_ad29
pci_ad28
pci_ad27
pci_ad26
pci_ad25
pci_ad24
pci_ad23
pci_ad22
pci_ad21
pci_ad20
pci_ad19
pci_ad18
pci_ad17
pci_ad16
pci_ad15
pci_ad14
pci_ad13
pci_ad12
pci_ad11
pci_ad10
pci_ad9
pci_ad8
pci_ad7
pci_ad6
pci_ad5
pci_ad4
pci_ad3
pci_ad2
pci_ad1
pci_ad0
D
C
A4
C4
B3
A1
A2
B1
C1
C2
D2
E4
E3
E1
E2
F4
F1
F2
K2
K3
K4
L1
L2
L3
M1
P1
N2
P3
N3
M4
P4
N4
P5
N5
PCI_AD31
PCI_AD30
PCI_AD29
PCI_AD28
PCI_AD27
PCI_AD26
PCI_AD25
PCI_AD24
PCI_AD23
PCI_AD22
PCI_AD21
PCI_AD20
PCI_AD19
PCI_AD18
PCI_AD17
PCI_AD16
PCI_AD15
PCI_AD14
PCI_AD13
PCI_AD12
PCI_AD11
PCI_AD10
PCI_AD9
PCI_AD8
PCI_AD7
PCI_AD6
PCI_AD5
PCI_AD4
PCI_AD3
PCI_AD2
PCI_AD1
PCI_AD0
5
6
J4
conminipci3
(plug)
BCM4301
BGA196_1MM
PCI
INTERFACE
PCI_CBE3_L
PCI_CBE2_L
PCI_CBE1_L
PCI_CBE0_L
PCI_FRAME_L
PCI_IRDY_L
PCI_TRDY_L
PCI_DEVSEL_L
PCI_STOP_L
PCI_PERR_L
PCI_SERR_L
PCI_PAR
PCI_INT_L
PCI_RST_L
PCI_CLK
PCI_PME_L
PCI_IDSEL
PCI_REQ_L
PCI_GNT_L
CSTSCHG
PCI_CLKRUN_L
GND
C3
G4
K1
N1
G3
G1
H1
H3
J1
J2
J3
J4
M5
D5
C5
B6
D1
D4
B5
pci_cbe3l
pci_cbe2l
pci_cbe1l
pci_cbe0l
pci_framel
pci_irdyl
pci_trdyl
pci_devsell
pci_stopl
pci_perrl
pci_serrl
pci_par
pci_intl
pci_rstl
pci_clk
pci_pmel
pci_idsel
pci_reql
pci_gntl
18
97
17
R23
PCMCIA_SEL
1
0
2
22
93
98
21
GND
27
pci_clk 25
69
GND
pci_reql 29
33
35
49
39
41
19
pci_cbe3l 45
pci_ad23 47
50
GND
pci_ad21 51
pci_ad19 53
28
pci_ad17 57
pci_cbe2l 59
62
GND
pci_irdyl 61
31
pci_devsell 72
55
GND
pci_ad31
pci_ad29
GND
pci_ad27
pci_ad25
A5
G2
23
pci_clkrunl
BCM4301
pci3_3
pci_perrl 71
pci3_3 40
pci_serrl 67
pci3_3 63
pci_cbe1l 73
pci_ad14 75
74
GND
pci_ad12 79
pci_ad10 81
77
GND
B
pci_ad8 85
pci_ad7 87
70
pci_ad5 91
pci_ad3 95
82
GND
pci_ad1 99
pci3_3
Page 1: MiniPCI Interface
Page 2: RF Front End
Page 3: Radio/Baseband
Page 4: Power/Clocks/Misc.
GND 1
R27
2
1K
mpci_led0
rf_disable_l
rf_disable_l
(PG 3)
A
103
104
105
106
107
1
3
5
7
9
11
13
15
117
119
121
123
ac_reset_l
mod_audio_mon
audio_gnd
sys_audio_out
sys_audio_in
inta_l
gnd
plus5v
plus5v
intb_l
reserved
reserved
reserved
reserved
reserved
3p3vaux
rst_l
reserved
reserved
reserved
gnd
clk
gnd
req_l
gnt_l
gnd
pme_l
ad30
plus33v
ad28
ad26
gnd
ad24
idsel
plus33v
ad22
ad20
gnd
ad18
ad16
ad31
ad29
gnd
ad27
ad25
plus33v
cbe3_l
ad23
gnd
ad21
ad19
plus33v
ad17
cbe2_l
gnd
irdy_l
plus33v
devsel_l
gnd
frame_l
trdy_l
gnd
stop_l
perr_l
plus33v
serr_l
plus33v
cbe1_l
ad14
gnd
ad12
ad10
gnd
clkrun_l
ad8
ad7
plus33v
ad5
ad3
gnd
ad1
cbe0_l
par
ad15
ad13
ad11
gnd
ad9
ad6
ad4
gnd
ad2
ad0
acsync
m66en
ac_sdata_ina
ac_sdata_out
ac_bit_clk
tip
8pmj_3
8pmj_6
8pmj_7
8pmj_8
led1_grnp
ac_codecid0_l
ac_codecid1_l
ring
8pmj_1
8pmj_2
8pmj_4
8pmj_5
led2_yelp
led2_yeln
reserved
sys_audio_in_gnd
led1_grnn
audio_gnd
chsgnd
mpciact_l
sys_audio_out_gnd
audio_gnd
3p3vaux
reserved
plus5va
110
111
113
115
116
20
D
pci_intl
36
43
110
112
24
26
vaux
pci_rstl
30
102 GND
34
38
88
42
44
114
46
48
89
52
54
32
58
60
pci_gntl
64
pci_framel
66
37
68
pci_trdyl
GND
pci_stopl
65
pci_clkrunl
56
76
pci_par
pci_ad15
78
80
83
84
pci_ad13
pci_ad11
GND
pci_ad9
86
pci_cbe0l
90
92
101
94
96
pci_ad6
pci_ad4
GND
pci_ad2
pci_ad0
pci_pmel
pci_ad30
pci3_3
pci_ad28
pci_ad26
GND
pci_ad24
pci_idsel
pci3_3
pci_ad22
pci_ad20
GND
pci_ad18
pci_ad16
pci3_3
pci3_3
C
B
108
109
2
4
6
8
10
12
14
16
mpci_led1
1
R26
2
mpci_led2
ZERO
118
120
122
mpciact_l
124
vaux
mpciact_l
MINIPCI INTERFACE
(PG 4)
A
Title
bcm94301mp rev 7.3
conn_minipci3
Size
CONN_MINIPCI3
Date:
File:
1
2
3
Number
Revision
1.6
B
4
5
28-Apr-2003
Sheet 1of
C:\BCM94301MP_LAYOUT\..\BCM_MiniPCI.sch
Drawn By:
6
4
1
mpci_led0
2
4
2
mpci_led1 = WLAN Radio state
20K 1%
R39
1
mpci_led1
6
5
mpci_led0 = WLAN activity
R38
1
3
pci3_3
mpci_led2 = generic led
2
vcc3_3
pci3_3
vdd4307a
vcc1_8
vdd4307pll
D
A11
B4
H2
K6
E8
E9
F6
G6
G8
H9
J7
K9
K10
M6
M12
N10
2
20K 1%
A3
D3
D6
G5
H6
L4
L5
P2
1
mpci_led2
E7
J5
J9
K8
D
R40
C13
D12
E11
20K 1%
2
vcc3_3
1
U13
8
7
6
5
2
C85
0.1UF
Vcc3
NC
ORG
GND
TSSOP8
FM93C46
C6
D7
B7
A6
A7
C7
1
2
3
4
CS
SK
Di
Do
L6
93C46W0W6T
BCM4301
BGA196_1MM
BOOTROM_SCI
BOOTROM_SDA
SPROM_CS
SPROM_CLK
SPROM_DOUT
SPROM_DIN
EXT_POR_L
C
PLLVDD
AVDD
AVDD
AVDD
VESD
VESD
VESD
JTAG_TRST_L
JTAG_TDO
JTAG_TDI
JTAG_TCK
JTAG_YMS
U11
F10
B2
E5
E6
E10
F3
F5
F8
F14
G7
G9
H4
H5
H7
H8
J6
J8
K5
K7
M2
M3
M14
P12
BCM4301
TEST_VCOI
PCMCIA_SEL
GPIO8
GPIO9
GPIO10
GPIO11
GPIO12
pll_powerdown
PLLGND
(PG 2)
tr_sw_tx_pu
(PG 2)
(PG 2)
tr_sw_rx_pu
GPIO0
GPIO1
GPIO2
GPIO3
GPIO4
GPIO5
GPIO6
GPIO7
F9
F7
PCMCIA_SEL
M13
N12
N13
P11
P13
K12
K11
J11
J10
H10
G10
C10
rf_dis_filt_l
AGND
AGND
AGND
C89
10UF
2
C87
10UF
(PG 2)
P14
N14
L14
L13
L12
L11
K14
K13
A14
B10
D14
0
mpci_led0
mpci_led1
mpci_led2
mpciact_l
rf_dis_filt_l
tr_sw_tx_pu
tr_sw_rx_pu
mpciact_l
VDDBUS
VDDBUS
VDDBUS
VDDBUS
VDDBUS
VDDBUS
VDDBUS
VDDBUS
1
1
(PG 1)
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
vcc3_3
2
R25
VDDCORE
VDDCORE
VDDCORE
VDDCORE
pci3_3
1
VDDIO
VDDIO
VDDIO
VDDIO
VDDIO
VDDIO
VDDIO
VDDIO
VDDIO
VDDIO
VDDIO
VDDIO
U11E
C
1
1
vcc3_3
C71
2.2UF
U8
ON_OFF
BCM4307 VDDBUS BYPASS CAPS
vcc2051
BCM4307 VDDIO BYPASS CAPS
pci3_3
vcc3_3
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
5
Vout
4
BCM2051 BYPASS CAPS
(+2V9)
2
Vin
3
C53
0.1UF
2
C76
0.01UF
2
C62
0.1UF
2
C73
1000PF
2
C52
0.1UF
2
C74
0.01UF
2
30
C66
0.1UF
2
25, 26
C86
0.1UF
2
21
C83
0.01UF
2
16
C91
0.1UF
2
3
C78
1000PF
2
53
C90
0.1UF
2
51
C84
1000PF
2
49
C94
0.01UF
2
47
C3
0.01UF
2
C6
0.01UF
2
C8
0.1UF
2
C19
0.01UF
2
C41
0.01UF
2
C48
0.1UF
2
C47
1000PF
2
C46
0.01UF
2
C40
0.1UF
2
C21
1000PF
2
34
C18
0.1UF
2
4
C54
0.01UF
2
15
C28
0.01UF
2
C39
0.01UF
2
2
C22
0.01UF
A3
D3
D6
G5, H6
L4, L5
P2
E8, E9
F6, G6
G8, H9
J7
K9, K10
M6
M12
N10
C61
1000PF
2
2
LP2985
2
C57
10UF
GND
2
1
BYPASS
C56
0.01UF
33, 35
B
B
BCM4307 VESD BYPASS CAPS
pci3_3
L9
0
1
2
1
1
1
vcc3_3
U10
C92
1000PF
C82
0.1UF
2
C81
0.01UF
2
1
2
MPZ2012S221A
2
vdd4307pll
L8
1
1
1
1
1
1
1
1
J9, K8
C49
0.1UF
C50
1000PF
C13
D12
E11
C51
1000PF
C59
0.1UF
B4
H2
K6
BCM4307 POWER, RESET, GPIO, CLKS
REGULATORS AND POWER SUPPLY FILTERING
MIC37102-1.8BM
R17
22.6K ,1%
C60
2.2UF
2
J5
C63
10UF
2
E7
C55
0.01UF
2
C69
0.01UF
2
C93
0.1UF
2
C70
0.1UF
2
C67
0.01UF
2
C75
10UF
5
2
GND
6
2
ADJ
2
MPZ2012S221A
2
GND
1
GND
OUT
BCM4307 AVDD & PLLVDD BYPASS CAPS
vdd4307a
L7
1
2
4
IN
vcc1_8
7
1
R8
10K ,1%
GND
2
3
21
2
C68
0.1UF
EN
1
1
1
1
2
C58
10UF
2
8
1
BCM4307 VDDCORE BYPASS CAPS
1
A
2
A
Title
Size
bcm94301mp rev 7.3
Number
Revision
1.6
B
Date:
File:
1
2
3
4
5
28-Apr-2003
Sheet 4of
C:\BCM94301MP_LAYOUT\..\BCM_Power
Drawn
supply.sch
By:
6
4
1
2
3
4
6
5
2
vcc3_3
R15
BCM4301
2
rssia
XTAL_OUT
RF_INP
RF_INN
3
2
2
33PF
Y1
U6
R1
10M
1
4
1
C2
1
2
2
31
32
XTAL_OUT
XTAL_IN
XTAL_12MHZ
10PPM
XTAL_IN
33PF
14
13
PA_OUTP
PA_OUTN
1
C29
U2
HHM1520
1
6
DIFF1
NC
DIFF2
GND
GND
L2
4
10PF
3n3H, no load
3
C31
1
2
5
10PF
TX_N
1
1
2
agc_2
tx_ip
tx_in
tx_op
tx_on
sri_di
sri_c
sri_e
1
2
1K R12
b_pwr
rssiar
rx_op
rx_on
rx_ip
rx_in
tx_pu
rx_pu
synth_pur
C104
22PF
C105
22PF
2
U11D
1
E13
G11
H14
H12
H11
agc_3
agc_4
H13
B12
A12
C11
B11
sri_do F12
F13
F11
sri_di E14
sclki
A10
E12
D13
D11
rssia
B14
C14
A13
B13
G12
G13
(PG 2)
ANT_SELP J13
ANT_SELP
G14
synth_pu
(PG 2)
ANT_SELN J14
ANT_SELN
J12
pdout D10
pdout
C12
(PG 2)
C
FLTR_RX_CTRL
AGC_RX_CTL0
AGC_RX_CTL1
AGC_RX_CTL2
AGC_RX_CTL3
AGC_RX_CTL
TX_ANA_IP
TX_ANA_IN
TX_ANA_QP
TX_ANA_QN
SRI_DO
RADIO
SRI_C
INTERFACE
SRI_E
SRI_DI
SYS_CLK
U11
BPWR
PA_RAMP
RSSIA
RX_ANA_QP
RX_ANA_QN
RX_ANA_IP
RX_ANA_IN
TX_PU
RX_PU
ANT_SELP
SYNTH_PU
ANT_SELN
XTAL_PU
BCM4301
TSSI
BGA196_1MM
RSSIA_SPARE
B
1
tx_pu
12PF
BCM4301
(PG 2)
R11
1.6K
1
2
1
GND
R4
C99
22PF
C38
R16
4.7K
vcc2051
1
2
2
agc_1
sri_do
sclko
C98
22PF
1
1
C97
22PF
1
1
C96
22PF
2
2
2
2
2
1
C35
22PF
agc_0
C102
22PF
vcc2051
2
65
2
2
SE
nc3
gnd1
nc1
nc2
gnd4
nc4
nc5
gnd5
gnd6
bgref
vdd
bpf_in
(PG 2)
2
37
1
2
36
41
43
44
52
64
23
27
bpf_in
1
gnd_pad
B
TX_P
R18
?
2
10
11
C1
1
C103
22PF
5
6
7
8
9
12
17
18
19
20
38
39
40
42
45
46
54
55
57
56
58
59
60
61
62
63
2
2
HHM1520
2
2.4nH +-0.3NH
FLTR_RX_CTRL
AGC_RX_CTRL0
AGC_RX_CTRL1
AGC_RX_CTRL2
AGC_RX_CTRL3
AGC_RX_CTRL4
TX_ANA_IN_IP
TX_ANA_IN_IN
TX_ANA_IN_QP
TX_ANA_IN_QN
SRI_DI
SIR_C
SRI_E
SRI_DO
SYS_CLK
BPWR
PA_RAMP
RSSIA
RX_ANA_OUT_QP
RX_ANA_OUT_QN
RX_ANA_OUT_IP
RX_ANA_OUT_IN
TX_PU
RX_PU
XTAL_PU
SYNTH_PU
1
RX_N1
L4
2
5
1
GND
2
GND
LPCC-64
rssiar
C44
120PF
1
C5
150PF
2
2
DIFF2
2
2.4nH +-0.3NH
L10
3.0nH +-0.3NH
3
1
NC
RX_P1
4
2
R14
C13
0.1UF
1
DIFF1
1
R2
2.87K 1%
2
15
16
4
3
21
25
26
30
33
34
35
47
49
51
53
50
48
29
28
24
22
C
SE
VDDPA
VDDTX
VDDRX
VDDIF
VDDVCO
VDDLO
VDDCP
VDDXTAL
VDDSUB2
VDDPLL
VDD4W
VDDDIO
VDD48X
VDDSUB
VDDMOD
TP_PLLBIAS
VCONT2
cp_out
vdd
VCTRL
IBGVCO
1
U7
6
499 1%
1
2700PF
R37
68.1K 1%
1
1
2
(PG 4)
2
2
R3
1
C7
82PF
U6
BCM2051
D
2
1
rf_dis_filt_l
C4
2.87K 1%
TRSW_RX1
C65
10UF
2
C64
0.01UF
LOOP3
LOOP4
(PG 2)
C106
22PF
1
10K 1%
C45
820PF
1
TRSW_RX
rf_dis_filt_l
45.3K 1%
L5
synth_pur
1
2
2
C42
56PF
2
0
R21
1
2
codec_sdo
rf_disable_l
1
loop1
rf_disable_l
1
vcc2051
1
R20
4.7K
D9
D8
A8
B9
(PG 1)
2
reserved
reserved
reserved
reserved
2
BCM4301
BGA196_1MM
2
reserved
reserved
reserved
reserved
2
16K 1%
1
C9
C8
B8
A9
synth_pu
R19
1
R13
1
U11B
1
2
vcc3_3
D
synth_pu
R22
10K 1%
2.4K 1%
RADIO/BASEBAND INTERFACE
A
A
Title
Size
bcm94301mp rev 7.3
Number
Revision
B
Date:
File:
1
2
3
4
5
28-Apr-2003
Sheet 3of 4
C:\BCM94301MP_LAYOUT\..\BCM_Radio&BB.sch
Drawn By:
6
1.6
1
2
J1
UFL_ANTENNA
4
5
6
Antenna 0 (RF MAIN)
Test Point
3
1
GND 2
3
C24
2
C9
1
1
1
2
2
U1
1
1
33PF
2
C10
LA1
2
2
CA1
?
(original Ant_selP)
33PF
13
?
RF1
GND
RFC
RF2
VC2
61
2
R6
C34
33PF
33
33
5
AS179P
2
33
ANT_SELN
(PG 4)
ANT_SELN
tr_sw_tx_pu
C30
1
2
33PF
ANT_SELP
(PG 4)
ANT_SELP
tr_sw_rx_pu
(PG 4)
tr_sw_tx_pu
2
R9
1
U4
4
VC1
5
2
tr_sw_rx_pu
1
R10
33
6
RF1
RFC
GND
VC2
RF2
1
D
1
C72 7PF
2
PA_OUT
2
C37 33PF
1
TRSW_RX
2
3
AS179P
TRSW_RX
vcc2051
C26
33PF
C36
33PF
1
2
100PF
1
1
R28
1
1
C
2
0.1UF
C95
5
0.1UF
R33
10K
2
22PF
2
1
1
2
C14
2
2
C15
1
C100
10UF
?
C110
1
1
LA2
2
vccpd
1
2
2
CA2
?
R36 5.62k 1%
1
2
vcc3_3
L11
1
2
MPZ2012S221A
1
1
7PF
CA4
1
R35
22K6 1%
1
Antenna 1 (RF AUX)
1
ANT1
INV-F
2
2
33PF
R5
41
VC1
2
7PF
CA3
2
1
GND
1
D
MECH
2
MECH
RF
3
U14
LMV321
+
4
LMV321
-
pdout
pdout
C
(PG 3)
2
20K 1%
R7
2K2 ,1%
2
2
C23
220pf
R34
2
1
56K
1
C109
2
5P6F
15K
C16
10PF
C25
0.5PF
L1
2
2
C17
10NF
2
5N6H +- 0.3nH
SHIELD
1
vccpa
2
2
1
SHIELD
R30
1
1
1
SB1
B
B
U3
C32
10PF
2
(PG 3)
3
tx_pu
2
4
2PF
L3
2N2H +-0.1nH
vcc3_3
IN
1
L12
2
1N8H +-0.3NH
1
L13
2
1P5F
0 OHM
C101
0.5PF
C108
1P5F
5
VCC
SE2522L
TLINE
TLINE - Z = 68.4 OHMS(10MIL)
L = 110 mils
TLINE
vccpa
C27
0.1UF
2
2
C43
10UF
1
2
MPZ2012S221A
C33
33PF
2
L6
1
vcc3_3 1
2
2
6
VCC
1
2
10PF
7
NC
VEN
1
9
C11
VCTL
GND
bpf_in 1
1
bpf_in
(PG 3)
8
OUT/VCC2
2
C20
1
tx_pu
DET
2
1
1
2
1
C12
1
RF FRONT END
A
A
Title
Size
bcm94301mp rev 7.3
Number
Revision
1.6
B
Date:
File:
1
2
3
4
5
28-Apr-2003
Sheet 2of
C:\BCM94301MP_LAYOUT\..\BCM_RF.sch
Drawn By:
6
4
PCB Layout
Bill of Materials (Part List)
WL-500B BOM1
華碩電腦股份有限公司
FROM:P7868
單階材料用量明細表
製表日期:03/04/23 10:44:50
有效日期:03/04/23 列印版本:
頁次:1
================================================================================
主件料號:59-IGB300-A01PB
目前版本:
來源:X 發料單位:PCS 生產單位:PCS
品名規格:WRT50G WIRELESS ROUTER
主件數量:1
R1.00 TEST
項
燒來發料組成用量
生效日期圖號
特保 Dis
次元件料號/品名規格
源單位
底數
失效日期插件位置/ECN 性稅 app
---- ----------------------- -- ---- ----------- -------- ---------------------10 11-033410400
P PCS
6.0000 03/04/23
N N
CAP 0.1UF/25V (0603) Y5V (104)
+80%-20%
C125,C127,C128,C130,
C133,C134,
QVL:MURATA,TAIYO,WALSIN,PAN OVERS,PHYCOMP,TDK,
20 11-034110461
P PCS
28.0000 03/04/23
N N
CAP 0.1UF/10V (0402) X5R (104)
10% TAIYO
C129,C135,C136,C138,
C139,C140,C144,C162,
C163,C164,C168,C170,
C171,C177,C189,C190,
C191,C192,C193,C194,
C195,C196,C197,C198,
C199,C200,C201,C202,
QVL:TYIAO,
特性('U':有取代料件 'S':有替代料件)
================================================================================
束)
(abmq600)
(結
第 1 頁
WL-500B BOM2
FROM:P7868
製表日期:03/04/23 10:44:24
頁次:1
================================================================================
主件料號:59-IGB300-A01PT
目前版本:
主件數量:1
R1.00 TEST
項
生效日期圖號
特保 Dis
源單位
底數
---- ----------------------- -- ---- ----------- -------- ---------------------10 10-003400000
P PCS
24.0000 03/04/23
N N
RES 0 OHM 1/10W (0603)
5%
L16,L17,R1,R110,
R115,R136,R150,R165,
R167,R172,R174,R186,
R195,R197,R200,R209,
R218,R222,R224,R240,
R47,R63,R71,R76,
QVL:YAGEO,TA-I TECH,COMPSTARS,ROYAL,PHYCOMP,WALSIN,SEI,
20 07-014000002
P PCS
1.0000 03/04/23
N N
POLYSWITCH miniSMDC075-2 750mA
RAYCHEM
F2,
MARKING:7 x 7
QVL:RAYCHEM,
30 09-010070100
P PCS
2.0000 03/04/23
Y N
FERRITE BEAD SMD(1206)70OHM/3A
A TYPE
L14,LB7,
QVL:KINGCORE,MAG LAYERS,
40 10-003411227
P PCS
1.0000 03/04/23
N N
RES 1.27K OHM 1/10W(0603)
1%
R117,
QVL:YAGEO,TA-I TECH,COMPSTARS,PHYCOMP,ROYAL,WALSIN,SEI,
50 10-003401010
P PCS
12.0000 03/04/23
N N
RES 100 OHM 1/10W (0603)
5%
R106,R125,R171,R211,
R212,R213,R214,R215,
R216,R23,R56,R93,
60 11-033410400
P PCS
56.0000 03/04/23
N N
CAP 0.1UF/25V (0603) Y5V (104)
+80%-20%
C103,C117,C118,C119,
C120,C121,C122,C123,
C124,C126,C131,C132,
C142,C143,C167,C169,
C176,C179,C18,C182,
C186,C187,C188,C19,
C20,C21,C22,C38,C40,
C41,C42,C43,C45,C46,
C49,C53,C60,C61,C62,
C63,C64,C65,C66,C67,
C69,C72,C73,C75,C76,
C78,C81,C87,C89,C92,
C97,C99,
================================================================================
(abmq600)
(接下頁)
第 1 頁
WL-500B BOM2
FROM:P7868
製表日期:03/04/23 10:44:24
頁次:2
================================================================================
目前版本:
主件數量:1
R1.00 TEST
項
生效日期圖號
特保 Dis
源單位
底數
---- ----------------------- -- ---- ----------- -------- ---------------------70 11-031110100
P PCS
4.0000 03/04/23
N C
CAP 100P/2KV (1808) NPO (101)
10%
C100,C77,C88,C94,
QVL:(C)SYFER,(C)HEC,
80 10-003401030
P PCS
25.0000 03/04/23
N N
RES 10K OHM 1/10W (0603)
5%
R10,R11,R12,R127,
R129,R130,R138,R14,
R147,R158,R162,R18,
R19,R20,R201,R204,
R239,R37,R57,R66,R7,
R83,R84,R86,R9,
90 10-003411030
P PCS
1.0000 03/04/23
N N
RES 10K OHM 1/10W (0603)
1%
R26,
100 10-063301030
P PCS
1.0000 03/04/23
N N
CHIP RES. ARRAY 10K OHM (0603)
4R8P YCN/AB TYPE
RN2,
QVL:YAGEO,AKANE,TA-I TECH,COMPSTARS,PHYCOMP,ROYAL,WALSIN,SEI,
110 11-033110300
P PCS
1.0000 03/04/23
Y N
CAP 0.01UF/50V (0603)X7R (103)
10%
C114,
120 11-033010000
P PCS
2.0000 03/04/23
Y N
CAP 10PF/50V (0603) NPO
5%
C116,C178,
130 11-031310660
P PCS
4.0000 03/04/23
N N
CAP 10UF/10V (1206) Y5V (106)
+80-20% TAYIO/LMK316F106ZF-T
C141,C172,C184,C185,
QVL:TAIYO,
140 11-015000100
P PCS
6.0000 03/04/23
N N
CAP TAN 10U/16V (3528)
SMD
C36,C37,C51,C58,C71,
MARKING:10/16;106C
C79,
QVL:AVX,NEC,SPRAGUE,NIPPON.C.C,VISHAY,
150 09-013120400
P PCS
5.0000 03/04/23
N N
FERRITE BEAD(0603)120OHM/400mA
A TYPE
L11,L13,L18,L6,L7,
QVL:KINGCORE,MAG LAYERS,
160 10-003401230
P PCS
1.0000 03/04/23
N N
RES 12K OHM 1/10W (0603)
================================================================================
(abmq600)
(接下頁)
第 2 頁
WL-500B BOM2
FROM:P7868
製表日期:03/04/23 10:44:24
頁次:3
================================================================================
目前版本:
主件數量:1
R1.00 TEST
項
生效日期圖號
特保 Dis
源單位
底數
---- ----------------------- -- ---- ----------- -------- ---------------------5%
R238,
170 07-010011350
P PCS
1.0000 03/04/23
N N
XTAL 13.5MHZ SMD 49S
TXC 20PF/20PPM
X4,
MARKING:TXC/13 B x 6 x F
QVL:TXC,
180 10-003401500
P PCS
2.0000 03/04/23
N N
RES 15 OHM 1/10W (0603)
5%
R53,R54,
190 10-003401510
P PCS
1.0000 03/04/23
N N
RES 150 OHM 1/10W (0603)
5%
R169,
200 11-033015100
P PCS
17.0000 03/04/23
N N
CAP 150PF/50V (0603) NPO (151)
5%
C145,C146,C147,C148,
C149,C150,C151,C152,
C153,C154,C155,C156,
C157,C158,C159,C160,
C161,
210 10-003401530
P PCS
4.0000 03/04/23
N N
RES 15K OHM 1/10W (0603)
5%
R52,R55,R97,R99,
220 11-033018000
P PCS
2.0000 03/04/23
N N
CAP 18PF/50V (0603) NPO
5%
C52,C54,
230 10-003401020
P PCS
3.0000 03/04/23
N N
RES 1K OHM 1/10W (0603)
5%
R155,R58,R8,
240 10-003401050
P PCS
2.0000 03/04/23
N N
RES 1M OHM 1/10W (0603)
5%
R105,R225,
250 11-033110200
P PCS
5.0000 03/04/23
Y N
CAP 1000PF/50V (0603)X7R (102)
10%
C101,C44,C68,C96,
C98,
================================================================================
(abmq600)
(接下頁)
第 3 頁
WL-500B BOM2
FROM:P7868
製表日期:03/04/23 10:44:24
頁次:4
================================================================================
目前版本:
主件數量:1
R1.00 TEST
項
生效日期圖號
特保 Dis
源單位
底數
---- ----------------------- -- ---- ----------- -------- ---------------------260 11-031110210
P PCS
1.0000 03/04/23
N N
CAP 1000P/3KV (1808) X7R (102)
10%HEC
C59,
QVL:HOLY STONE,
270 09-022202050
P PCS
1.0000 03/04/23
N N
INDUCTOR 2.2UH(0805)50mA
MAG LAYERS
L12,
QVL:MAG LAYERS,
280 10-003400207
P PCS
1.0000 03/04/23
N N
RES 2.7 OHM 1/10W (0603)
5%
R118,
290 10-003402720
P PCS
2.0000 03/04/23
N N
RES 2.7K OHM 1/10W(0603)
5%
R13,R159,
300 10-003402210
P PCS
13.0000 03/04/23
N N
RES 220 OHM 1/10W (0603)
5%
R137,R173,R175,R187,
R198,R199,R202,R203,
R210,R219,R220,R221,
R226,
310 11-033022000
P PCS
3.0000 03/04/23
Y N
CAP 22PF/50V (0603) NPO
5%
C115,C165,C166,
320 09-02X224011
P PCS
1.0000 03/04/23
N N
POWER CHOKE 22U 0.9A
SUMIDA/CDRH5D28-220NC
L15,
QVL:SUMIDA,
330 10-003402410
P PCS
1.0000 03/04/23
N N
RES 240 OHM 1/10W (0603)
5%
R135,
340 07-010232501
P PCS
2.0000 03/04/23
N N
XTAL 25MHZ 49US SMD
TXC 20PF/25PPM/50OHM
X1,X2,
MARKING:TXC/25.0x6xF
QVL:TXC,
350 11-033027000
P PCS
2.0000 03/04/23
Y N
CAP 27PF/50V (0603) NPO
5%
C15,C16,
================================================================================
(abmq600)
(接下頁)
第 4 頁
WL-500B BOM2
FROM:P7868
製表日期:03/04/23 10:44:24
頁次:5
================================================================================
目前版本:
主件數量:1
R1.00 TEST
項
生效日期圖號
特保 Dis
源單位
底數
---- ----------------------- -- ---- ----------- -------- ---------------------360 10-003402020
P PCS
1.0000 03/04/23
N N
RES 2K OHM 1/10W (0603)
5%
R237,
370 10-003403320
P PCS
1.0000 03/04/23
N N
RES 3.3K OHM 1/10W(0603)
5%
R196,
380 10-003403300
P PCS
7.0000 03/04/23
N N
RES 33 OHM 1/10W (0603)
5%
R100,R38,R40,R78,
R87,R88,R95,
390 10-003403310
P PCS
5.0000 03/04/23
N N
RES 330 OHM 1/10W (0603)
5%
R179,R180,R181,R182,
R205,
400 10-003403340
P PCS
1.0000 03/04/23
N N
RES 330K OHM 1/10W(0603)
5%
R27,
410 10-003413932
P PCS
1.0000 03/04/23
N N
RES 39.2K OHM 1/10W(0603)
1%
R235,
420 10-003404720
P PCS
15.0000 03/04/23
N N
RES 4.7K OHM 1/10W(0603)
5%
R151,R153,R166,R170,
R192,R193,R194,R2,
R206,R217,R33,R39,
R44,R45,R65,
430 10-063304720
P PCS
5.0000 03/04/23
N N
CHIP RES ARRAY 4.7K OHM (0603)
4R8P YCN/AB TYPE
RN1,RN3,RN4,RN5,RN6,
QVL:YAGEO,AKANE,TA-I TECH,COMPSTARS,PHYCOMP,ROYAL,WALSIN,SEI,
440 11-032447500
P PCS
4.0000 03/04/23
N N
CAP 4.7UF/10V (0805) Y5V (475)
+80%-20%
C104,C108,C110,C111,
QVL:MURATA,TAIYO,華新,
450 10-003404710
P PCS
1.0000 03/04/23
N N
RES 470 OHM 1/10W (0603)
5%
R168,
================================================================================
(abmq600)
(接下頁)
第 5 頁
WL-500B BOM2
FROM:P7868
製表日期:03/04/23 10:44:25
頁次:6
================================================================================
目前版本:
主件數量:1
R1.00 TEST
項
生效日期圖號
特保 Dis
源單位
底數
---- ----------------------- -- ---- ----------- -------- ---------------------QVL:YAGEO,TA-I TECH,COMPSTARS,ROYAL,PHYCOMP,WALSIN,SEI,
460 11-016000471
P PCS
2.0000 03/04/23
N N
CAP TAN 47U/10V (6032)
SMD
C173,C175,
QVL:NEC,SPRAGUE,AVX,NIPPON.C.C,VISHAY,
470 10-003414837
P PCS
1.0000 03/04/23
N N
RES 48.7K OHM 1/10W(0603)
1%
R236,
480 10-003414909
P PCS
20.0000 03/04/23
N N
RES 49.9 OHM 1/10W(0603)
1%
R101,R108,R109,R111,
R112,R113,R114,R116,
R31,R32,R49,R50,R69,
R70,R72,R73,R74,R75,
R77,R82,
490 10-003405110
P PCS
1.0000 03/04/23
N N
RES 510 OHM 1/10W (0603)
5%
R34,
500 06-004600400
P PCS
2.0000 03/04/23
N N
LOGIC GATE NC7SZ04M5
SOT23-5
FAIRCHILD
U25,U27,
MARKING:7Z04D
QVL:FAIRCHILD,
510 06-004603215
P PCS
2.0000 03/04/23
N N
LOGIC GATE NC7SZ32M5 SOT23-5
FAIRCHILD
U16,U29,
MARKING:7Z32x
QVL:FAIRCHILD,
520 06-004412311
P PCS
1.0000 03/04/23
N N
LOGIC 74HC123DT
S-16
PHILIPS
U24,
QVL:PHILIPS,
530 10-003407500
P PCS
14.0000 03/04/23
N N
RES 75 OHM 1/10W (0603)
5%
R107,R207,R227,R29,
R30,R59,R60,R61,R80,
R81,R85,R91,R94,R96,
540 07-020004010
P PCS
1.0000 03/04/23
Y N
TRANSCEIVER AC101LKQT TQFP-48
BROADCOM
U6,
================================================================================
(abmq600)
(接下頁)
第 6 頁
WL-500B BOM2
FROM:P7868
製表日期:03/04/23 10:44:25
頁次:7
================================================================================
目前版本:
主件數量:1
R1.00 TEST
項
生效日期圖號
特保 Dis
源單位
底數
---- ----------------------- -- ---- ----------- -------- ---------------------QVL:BROADCOM,
550 06-007184010
P PCS
1.0000 03/04/23
N N
LIN REG. AIC1084-33CMTR TO-263
AIC
U30,
QVL:AIC,
560 05-001606114
P PCS
1.0000 03/04/23
N N
FLASH AMD AM29LV320DT90EI
32M-90(WL-500G-BOOT-R2D0.BIN)
U17,
QVL:AMD,
570 02-720000100
P PCS
1.0000 03/04/23
N N
C.S AT7601F
LQFP48PIN
ATTANSIC 2PRINTER PORT CONT.
U26,
QVL:鈺碩,
燒 P PCS
580 05-020100201
1.0000 03/04/23
N N
EEPROM AT93C46-10SC-2.7 SO 8P
ATMEL
U9,
MARKING:ATMEL xxx/93C46/....
QVL:ATMEL,
590 09-013060500
P PCS
6.0000 03/04/23
Y N
FERRITE BEAD (0603) 500mA
60 OHM/100MHZ BLM18PG600SN1D
LB1,LB10,LB12,LB2,
LB3,LB9,
QVL:MURATA,
600 07-004064120
P PCS
1.0000 03/04/23
N N
SCHOTTKY B240LA
SMA
DII 2A/40V
D8,
QVL:DII,
610 02-561270200
P PCS
1.0000 03/04/23
N N
BROADCOM BCM4702
PBGA-340
INTEGRATED RESIDENTIAL GATEWAY
U3,
MARKING:BROADCOM / BCM4702KPB / TN0210 P10 / 15138 N
QVL:BROADCOM,
620 02-561132510
P PCS
1.0000 03/04/23
N N
BROADCOM BCM5325
10/100 BASE-T/TX 6 PORT SWITCH
U11,
MARKING:BROADCOM / BCM5325A2KOM
QVL:BROADCOM,
630 12-191301800
P PCS
1.0000 03/04/23
N N
DOCKING 18P,0.6mm,F,R/A,SMT
JAE/DA1R018H91-E1500
J11,
QVL:JAE,
640 09-051001311
P PCS
1.0000 03/04/23
Y N
TRANSFORMER 10/100MB
DELTA/LF8505
U7,
================================================================================
(abmq600)
(接下頁)
第 7 頁
WL-500B BOM2
FROM:P7868
製表日期:03/04/23 10:44:25
頁次:8
================================================================================
目前版本:
主件數量:1
R1.00 TEST
項
生效日期圖號
特保 Dis
源單位
底數
---- ----------------------- -- ---- ----------- -------- ---------------------MARKING:LF8505/.DELTA XXXX
QVL:DELTA,
650 09-051024000
P PCS
1.0000 03/04/23
Y N
TRANSFORMER 100-TX
DELTA LF8731
U10,
MARKING:DELTA/LF8731 xxxx
QVL:DELTA,
660 07-001101010
P PCS
1.0000 03/04/23
N N
SCR DIODE MAC4DLMT4-1 DPAK369A
ON
Q4,
MARKING:xxx/AC/4DLM
QVL:ON,
670 06-017010010
P PCS
1.0000 03/04/23
Y N
Vcomp. MAX811SEUS-T SOT143-4
MAXIM
U14,
MARKING:AQxx
QVL:MAXIM,
680 07-014160000
P PCS
1.0000 03/04/23
Y N
POLYSWITCH miniSMDM160
RAYCHEM 1.6A
##
F3,
MARKING:x 160/xxxx
QVL:RAYCHEM,
690 12-023511240
P PCS
1.0000 03/04/23
Y N
SO DIMM 124P,3.3V,5.2mm,SMT
FOXCONN/ASOA226-S2F
J10,
QVL:FOXCONN,
700 09-011120005
P PCS
2.0000 03/04/23
N N
FERRITE BEAD (1206) 120 OHM/2A
MAG LAYERS/MLB-321611-0120P-N1
L19,L20,
QVL:MAG LAYERS,
710 07-003000110
P PCS
1.0000 03/04/23
N N
TRASIS. PMBS3904,215
SOT23
PHILIPS,NPN
Q6,
MARKING:.04/..
QVL:PHILIPS,
720 10-001000000
P PCS
4.0000 03/04/23
N N
RES 0 OHM 1/4W (1206)
5%
R188,R189,R190,R191,
QVL:YAGEO,TA-I TECH,PHYCOMP,WALSIN,
730 07-001053010
P PCS
1.0000 03/04/23
Y N
DIODE SR05
SOT-143
SEMTECH
D1,
MARKING:R05
QVL:SEMTECH,
================================================================================
(abmq600)
(接下頁)
第 8 頁
WL-500B BOM2
FROM:P7868
製表日期:03/04/23 10:44:25
頁次:9
================================================================================
目前版本:
主件數量:1
R1.00 TEST
項
生效日期圖號
特保 Dis
源單位
底數
---- ----------------------- -- ---- ----------- -------- ---------------------740 06-006001610
P PCS
1.0000 03/04/23
N N
Vref. TL431
MICR8
ON
D9,
MARKING:431AC/..
QVL:ON,
750 03-12083C220
P PCS
2.0000 03/04/23
N N
4M*16-6 NANYA TSOP SDRAM
NT5SV4M16DT-6K
U5,U8,
MARKING:NT5SV4M16DT-6K
QVL:NAN YA,
760 06-008212010
P PCS
1.0000 03/04/23
N N
SW REG. XC6365B103MR
SOT-25
TOREX
U15,
QVL:TOREX,
770 07-005268010
P PCS
1.0000 03/04/23
N N
P-MOSFET XP162A12A6PR
SOT89
TOREX(0.17 OHM/-2.5V)
Q3,
MARKING:21/26
QVL:TOREX,
780 10-003402200
P PCS
1.0000 03/04/23
N N
RES 22 OHM 1/10W (0603)
5%
R68,
790 ESD
PCS
1.0000 03/04/23
J1,
================================================================================
束)
(abmq600)
(結
第 9 頁
WL-500B BOM3
FROM:P7868
製表日期:03/04/23 10:43:01
頁次:1
================================================================================
主件料號:70-IGB300-A01P
目前版本:
來源:M 發料單位:PCS 生產單位:PCS
品名規格:WL-500G WIRELESS ROUTER
主件數量:1
R1.00 TEST
項
生效日期圖號
特保 Dis
源單位
底數
---- ----------------------- -- ---- ----------- -------- ---------------------10 09-020224007
P PCS
1.0000 03/04/23
N N
INDUCTOR 22UH DIP
MAGIC/DR0608-220K+UL
LB11,
QVL:MAGIC,
20 12-130000040
P PCS
1.0000 03/04/23
N N
USB CON 1X4P DIP M S/T
FOXCONN/UB311C-K1
J3,
QVL:FOXCONN,
30 11-040233710
P PCS
1.0000 03/04/23
Y N
CAP EL 330U/16V ZL 8*11.5
RUBYCON/16ZL330
CE2,
QVL:RUBYCON,
40 11-040004700
P PCS
2.0000 03/04/23
N N
CAP EL 470UF/16V 8x12 105d
OST
C180,C183,
QVL:OST,
50 12-101100258
P PCS
1.0000 03/04/23
Y N
D-SUB 25P F,R/A,PC99
FOXCONN/DT11321-P5T
P1,
QVL:FOXCONN,
60 12-145011032
P PCS
1.0000 03/04/23
N N
DC POWER JACK 3P SHIELD φ:2.0
SINGATRON/2DC-S005D100
J12,
QVL:SINGATRON,
70 12-142020050
P PCS
1.0000 03/04/23
N N
MODULAR JACK RJ45 1*5PORT CHAN
SINCERE/415B-083150113
J13,
QVL:SINCERE,
80 07-015020003
P PCS
7.0000 03/04/23
N N
LED GREEN 3φ R/A
KINGBRIGHT
LED11,LED13,LED14,
LED15,LED17,LED21,
LED9,
QVL:KINGBRIGHT,
90 12-090030042
P PCS
2.0000 03/04/23
N N
T.P SWITCH 4P,DIP,L:5.85
RESET1,SW1,
QVL:HUA JIE,
100 07-009004800
P PCS
1.0000 03/04/23
N Y
XTAL 48MHZ
DIP 49US
TXC 20PF
X3,
110 60-IGB300-A01P
M PCS
1.0000 03/04/23
Y N
WL-500G WIRELESS ROUTER
R1.00 TEST
================================================================================
(abmq600)
第 1 頁
WL-120B BOM1
FROM:P7868
製表日期:03/04/28 14:23:21
頁次:1
================================================================================
主件料號:60-I11000-A01P
目前版本:
品名規格:WL-121 WLAN MINI PCI CARD
主件數量:1
R2.00 TEST
項
生效日期圖號
特保 Dis
源單位
底數
---- ----------------------- -- ---- ----------- -------- ---------------------10 02-561000700
P PCS
1.0000 03/04/24
Y N
C.S BCM4301
PBGA196
802.11B BASEBAND/MAC
U11,
MARKING:BROADCOM/BCM4301xxx/xxxxxx xxx/xxxxxxx
QVL:BROADCOM,
20 02-561000800
P PCS
1.0000 03/04/24
Y N
C.S BCM2051
LPCC64
802.11B RF IC 3.3V
U6,
MARKING:BROADCOM/BCM2051KML/TSxxxx xxx/xxxxxx
QVL:BROADCOM,
30 05-020100021
P PCS
1.0000 03/04/24
N N
EEPROM 93C46WDW6T ST
TSSOP8
1K(WL-120B_4E8E.BIN)
U13,
MARKING:C46W6 xxxx
QVL:ST,
40 06-007144010
P PCS
1.0000 03/04/24
S N N
LIN REG. AME8816CEHAADJ
SO8
AME
U10,
QVL:AME,
(06-007134010
)
1.0000 03/04/26
N
LIN REG. MIC37102BM
S-8
MICREL
MARKING:MIC37102
QVL:MICREL,
50 06-007168010
P PCS
1.0000 03/04/24
S N N
LIN REG.LP2985AIM5-2.9 SOT23-5
NS
U8,
MARKING:LAXA
QVL:NS,
(06-007197010
)
1.0000 03/04/28
N
LIN REG. NJM2872F29-TE1 MTP-5
NJRC
QVL:NJRC,
60 06-010090010
P PCS
1.0000 03/04/24
N N
OP AMP. LMV321M7
SC70-5
NS
U14,
MARKING:Axx
QVL:NS,
70 06-053011010
P PCS
1.0000 03/04/24
N N
POWER AMP.SE2522L
LPCC 8PIN
SIGE
U3,
MARKING:2522L/xxxxx
QVL:SIGE,
80 06-055001010
P PCS
2.0000 03/04/24
N N
================================================================================
(abmq600)
(接下頁)
第 1 頁
WL-120B BOM1
FROM:P7868
製表日期:03/04/28 14:23:21
頁次:2
================================================================================
主件料號:60-I11000-A01P
目前版本:
主件數量:1
R2.00 TEST
項
生效日期圖號
特保 Dis
源單位
底數
---- ----------------------- -- ---- ----------- -------- ---------------------GAAS IC PDT SW AS179-92 SC-70
ALPHA
U1,U4,
MARKING:S79
QVL:APLHA,
90 07-010811200
P PCS
1.0000 03/04/24
S N N
XTAL 12MHZ SMD 3.5*6
TQG 18PF/10PPM
Y1,
MARKING:12.000/TQG
QVL:TQG,
(07-010Q01201
)
1.0000 03/04/24
N
XTAL 12.00MHZ SMD 3.5*6
ECERA/FX1200033 18PF/10PPM
QVL:ECERA,
100 08-531300040
P PCS
1.0000 03/04/26
N Y
WL-120 PCB R2.00
金像5.703*4.408,6L(4)
110 09-012220001
P PCS
4.0000 03/04/24
Y N
FERRITE BEAD (0805) 3A
220OHM/100MHZ TDK/MPZ2012S221A
L11,L6,L7,L8,
QVL:TDK,
120 09-02C180200
P PCS
1.0000 03/04/24
Y N
INDUCTOR 1.8NH
(0402)
MURATA/LQG15HN1N8S02
L12,
QVL:村田,
130 09-02C220001
P PCS
1.0000 03/04/24
Y N
INDUCTOR 2.2NH
(0402)
MURATA/LQP15MN2N2B00
L3,
QVL:村田,
140 09-02C240000
P PCS
2.0000 03/04/24
N N
INDUCTOR 2.4NH
(0402)
L4,L5,
QVL:村田,
150 09-02C300000
P PCS
1.0000 03/04/24
N N
INDUCTOR 3.0NH
(0402)
L10,
QVL:村田,
160 09-02C560010
P PCS
1.0000 03/04/24
N N
INDUCTOR 5.6NH
(0402)±0.3NH
TAIYO/HK1005 5N6S-T
L1,
QVL:太誘,
170 09-051040004
P PCS
2.0000 03/04/24
Y N
TRANSFORMER BALUN(0805)
TDK/HHM1520 2400-2500MHZ
U2,U7,
QVL:TDK,
================================================================================
(abmq600)
(接下頁)
第 2 頁
WL-120B BOM1
FROM:P7868
製表日期:03/04/28 14:23:21
頁次:3
================================================================================
主件料號:60-I11000-A01P
目前版本:
主件數量:1
R2.00 TEST
項
生效日期圖號
特保 Dis
源單位
底數
---- ----------------------- -- ---- ----------- -------- ---------------------180 10-003400000
P PCS
3.0000 03/04/24
N N
RES 0 OHM 1/10W (0603)
5%
L13,L9,R25,
QVL:國巨,大毅,華亞,厚聲,飛元,華新,新典,
190 10-003401060
P PCS
1.0000 03/04/24
N N
RES 10M OHM 1/10W(0603)
5%
R1,
QVL:國巨,大毅,華亞,厚聲,飛元,華新,新典,
200 10-004400000
P PCS
4.0000 03/04/24
N N
RES 0 OHM 1/16W (0402)
5%
L100,R19,R23,R26,
QVL:大毅,國巨,華新,
210 10-004401020
P PCS
2.0000 03/04/24
N N
RES 1K OHM 1/16W (0402)
5%
R12,R27,
220 10-004401030
P PCS
1.0000 03/04/24
N N
RES 10K OHM 1/16W (0402)
5%
R33,
230 10-004401530
P PCS
1.0000 03/04/24
N N
RES 15K OHM 1/16W (0402)
5%
R30,
240 10-004401620
P PCS
1.0000 03/04/24
N N
RES 1.6K OHM 1/16W (0402)
5%
R11,
250 10-004403300
P PCS
4.0000 03/04/24
N N
RES 33 OHM 1/16W (0402)
5%
R10,R5,R6,R9,
QVL:國巨,大毅,華新,
260 10-004404720
P PCS
2.0000 03/04/24
N N
RES 4.7K OHM 1/16W(0402)
5%
R16,R20,
270 10-004415630
P PCS
1.0000 03/04/24
N N
RES 56K OHM 1/16W (0402)
1%
R34,
280 10-004411030
P PCS
3.0000 03/04/24
N N
RES 10K OHM 1/16W (0402)
1%
R21,R22,R8,
================================================================================
(abmq600)
(接下頁)
第 3 頁
WL-120B BOM1
FROM:P7868
製表日期:03/04/28 14:23:22
頁次:4
================================================================================
主件料號:60-I11000-A01P
目前版本:
主件數量:1
R2.00 TEST
項
生效日期圖號
特保 Dis
源單位
底數
---- ----------------------- -- ---- ----------- -------- ---------------------290 10-004411630
P PCS
1.0000 03/04/24
N N
RES 16K OHM 1/16W (0402)
1%
R13,
300 10-004412030
P PCS
4.0000 03/04/24
N N
RES 20K OHM 1/16W (0402)
1%
R28,R38,R39,R40,
310 10-004412220
P PCS
1.0000 03/04/26
N N
RES 2.2K OHM 1/16W (0402) 1%
R7,
320 10-004412236
P PCS
2.0000 03/04/24
N N
RES 22.6K OHM 1/16W (0402)
1%
R17,R35,
330 10-004412420
P PCS
1.0000 03/04/24
N N
RES 2.4K OHM 1/16W (0402)
1%
R4,
340 10-004412827
P PCS
2.0000 03/04/24
N N
RES 2.87K OHM 1/16W (0402)
1%
R2,R3,
350 10-004414533
P PCS
1.0000 03/04/24
N N
RES 45.3K OHM 1/16W (0402)
1%
R15,
360 10-004414919
P PCS
1.0000 03/04/24
N N
RES 499 OHM 1/16W (0402)
1%
R14,
370 10-004415622
P PCS
1.0000 03/04/24
N N
RES 5.62K OHM 1/16W(0402)
1%
R36,
QVL:WALSIN,
380 10-004416831
P PCS
1.0000 03/04/24
N N
RES 68.1K OHM 1/16W (0402)
1%
R37,
390 11-032110651
P PCS
9.0000 03/04/24
N N
CAP 10UF/6.3V (0805)X5R 10%
TAIYO
C100,C43,C57,C58,
C63,C65,C75,C87,C89,
================================================================================
(abmq600)
(接下頁)
第 4 頁
WL-120B BOM1
FROM:P7868
製表日期:03/04/28 14:23:22
頁次:5
================================================================================
主件料號:60-I11000-A01P
目前版本:
主件數量:1
R2.00 TEST
項
生效日期圖號
特保 Dis
源單位
底數
---- ----------------------- -- ---- ----------- -------- ---------------------QVL:太誘,
400 11-033122550
P PCS
2.0000 03/04/24
N N
CAP 2.2UF/6.3V(0603) X5R (225)
10% AVX
C60,C71,
QVL:AVX,
410 11-034002041
P PCS
1.0000 03/04/24
N N
CAP 2PF/50V (0402) NPO
5PF TAIYO
C20,
QVL:太誘,
420 11-034010140
P PCS
1.0000 03/04/24
Y N
CAP 100PF/50V (0402) NPO (101)
5%
C14,
QVL:WALSIN,
430 11-034012041
P PCS
1.0000 03/04/24
N N
CAP 12PF/50V (0402) NPO
5% TAIYO/UMK105CH120JW-F
C38,
QVL:TAIYO,
440 11-034012121
P PCS
1.0000 03/04/24
N N
CAP 120PF/50V (0402) NPO 5%
TAIYO/UMK105CH121JW
C44,
QVL:太誘,
450 11-034015141
P PCS
1.0000 03/04/24
N N
CAP 150PF/50V (0402) NPO (151)
5% TAIYO/UMK105SL151JW-F
C5,
QVL:太誘,
460 11-034022041
P PCS
11.0000 03/04/24
N N
CAP 22PF/50V (0402) NPO
5% TAIYO
C102,C103,C104,C105,
C106,C35,C95,C96,
C97,C98,C99,
QVL:太誘,
470 11-034022120
P PCS
1.0000 03/04/24
N N
CAP 220PF/25V (0402) NPO 5%
C23,
QVL:SKYWELL,
480 11-034033040
P PCS
11.0000 03/04/24
Y N
CAP 33PF/50V (0402) NPO
5%
C1,C10,C2,C24,C26,
C30,C33,C34,C36,C37,
C9,
QVL:WALSIN,
490 11-034056221
P PCS
1.0000 03/04/24
N N
CAP 56PF/50V (0402) NPO 5%
TAIYO/UMK105CH560JW
C42,
================================================================================
(abmq600)
(接下頁)
第 5 頁
WL-120B BOM1
FROM:P7868
製表日期:03/04/28 14:23:23
頁次:6
================================================================================
主件料號:60-I11000-A01P
目前版本:
主件數量:1
R2.00 TEST
項
生效日期圖號
特保 Dis
源單位
底數
---- ----------------------- -- ---- ----------- -------- ---------------------QVL:TAIYO,
500 11-034082042
P PCS
1.0000 03/04/24
N N
CAP 82PF/50V (0402) NPO 5%
TAIYO/UMK105CH820JW-F
C7,
QVL:TAIYO,
510 11-034110241
P PCS
9.0000 03/04/24
N N
CAP 1000PF/50V (0402)X7R (102)
10% TAIYO/UMK105BJ102KV-F
C21,C47,C50,C51,C61,
C73,C78,C84,C92,
QVL:TYIAO,
520 11-034110311
P PCS
20.0000 03/04/24
N N
CAP 0.01U/16V (0402) X7R(103)
10% TAIYO
C17,C19,C22,C28,C3,
C39,C41,C46,C54,C55,
C56,C6,C64,C67,C69,
C74,C76,C81,C83,C94,
QVL:TYIAO,
530 11-034110461
P PCS
22.0000 03/04/24
N N
CAP 0.1UF/10V (0402) X5R (104)
10% TAIYO
C110,C13,C15,C18,
C27,C40,C48,C49,C52,
C53,C59,C62,C66,C68,
C70,C8,C82,C85,C86,
C90,C91,C93,
QVL:TYIAO,
540 11-034127240
P PCS
1.0000 03/04/24
N N
CAP 2700PF/50V (0402) X7R 10%
C4,
QVL:華新科,TDK,
550 11-034182140
P PCS
1.0000 03/04/24
N N
CAP 820PF/50V (0402) X7R (821)
10%
C45,
QVL:華新科,TDK,
560 11-034600541
P PCS
2.0000 03/04/24
Y N
CAP 0.5PF/50V (0402) NPO
0.25PF TAIYO
C101,C25,
QVL:太誘,
570 11-034601541
P PCS
2.0000 03/04/24
N N
CAP 1.5PF/50V (0402) NPO
0.25PF TAIYO
C108,C32,
QVL:太誘,
580 11-034605641
P PCS
1.0000 03/04/24
N N
CAP 5.6PF/50V (0402) NPO
0.25PF TAIYO/UMK105CH5R6CW-F
C109,
================================================================================
(abmq600)
(接下頁)
第 6 頁
WL-120B BOM1
FROM:P7868
製表日期:03/04/28 14:23:23
頁次:7
================================================================================
主件料號:60-I11000-A01P
目前版本:
主件數量:1
R2.00 TEST
項
生效日期圖號
特保 Dis
源單位
底數
---- ----------------------- -- ---- ----------- -------- ---------------------QVL:TAIYO,
590 11-034607041
P PCS
3.0000 03/04/24
N N
CAP 7PF/50V (0402) NPO
0.25PF TAIYO/UMK105CH070DW-F
C72,CA3,CA4,
QVL:TAIYO,
600 11-034610041
P PCS
5.0000 03/04/24
N N
CAP 10PF/50V (0402) NPO
0.5PF TAIYO
C11,C12,C16,C29,C31,
QVL:太誘,
610 12-310003000
P PCS
1.0000 03/04/24
N N
RF CONNECTOR
HRS/CL331-0471/U.FL-R-SMT
J1,
QVL:HIROSE,
620 13-I0C10M020
P PCS
1.0000 03/04/24
N N
WL-120 BOTTOM SHIELDING BRKT
SB1,
QVL:及成,
================================================================================
束)
(abmq600)
(結
第 7 頁
WL-120B BOM2
FROM:P7867
製表日期:03/04/26 10:03:02
頁次:1
================================================================================
主件料號:70-I11000-A01P
目前版本:
主件數量:1
R1.00 TEST
項
生效日期圖號
特保 Dis
源單位
底數
---- ----------------------- -- ---- ----------- -------- ---------------------10 13-I0C10M010
P PCS
1.0000 03/04/24
N N
WL-120 TOP SHIELDING BRKT
QVL:及成,
20 60-I11000-A01P
M
WL-121 WLAN MINI PCI CARD
R1.00 TEST
PCS
1.0000 03/04/24
Y
N
================================================================================
束)
(abmq600)
(結
第 1 頁
Exterior and Interior Photographs
External Photos of Wireless Router －－－－－－－－－－－－－－－－－－
Model: WL-500b
Training Research Co., Ltd., TEL: 886-2-26935155, Fax: 886-2-26934440
1/4
Model: WL-500b
2/4
Model: WL-500b
3/4
Model: WL-500b
4/4
Internal Photos of Wireless Router
ЁЁЁЁЁЁЁЁЁЁЁЁЁЁЁЁЁЁ
Model: WL-500b
1/7
Model: WL-500b
2/7
Model: WL-500b
3/7
Model: WL-500b
4/7
Model: WL-500b
5/7
Model: WL-500b
6/7
Model: WL-500b
7/7
Label Information
Technical Description
WL500b
IEEE 802.11b 11 Mbps Wireless Router
l Monitor your home anywhere, over the air, over the Internet
n Plug USB WebCam to WL-500b, users can check his home
status through the Web page
l Share broadband Internet around the home
n
Connect to external ADSL / cable modem via one 10/100Base-T auto-crossover
(MDI/MDI-X) Ethernet port
n
Four port switch with 10/100Base-T auto-crossover (MDI/MDI-X) Ethernet port connect to
local PC
n
802.1H translation mechanism bridging Ethernet and wireless traffics
n
IP sharing (NAT)
n
PPPoE client to connect remote ISP PPPoE server
n
DHCP server / client and DNX Proxy
n
DDNS
High Performance Wireless LAN Access
n
11 Mbps speed over the 2.4 GHz frequency band
n
Standard 2.4GHz Wi-Fi network to grantee compatible with existing 802.11b WLA N cards
n
Auto fall-back algorithm to select transmission rate.
n
One internal Inverted-F antenna and one external dipole antennas; support diversity
n
Reverse-SMA antenna connector to support external high gain antenna
n
Support roaming to other Wi-Fi compliant Access Points connected by local Ethernet to
extend the SOHO network coverage
l Wireless Firewall
n
Wireless firewall to secure traffic over the air.
n
Not only able to build up the conventional firewall to block the traffic from Internet,
WL-500b can also setup another firewall to protect the traffic from the air.
By checking any traffic between wireless and wired local area networks
l Firewall
n
Not only basic NAT natural firewall, SPI firewall will filter out the possible advanced
forms of attacks from the Internet.
n
DMZ
l Secure wireless connectivity
n
128-bit and 64-bit WEP; firmware upgradeable to support WPA
n
Only the wireless clients’ MAC address appear in the Access Control List (ACL) can be
allowed to enter the network
l Easy installation, management and maintenance
n
Web-based management can easily be operate by users with popular Internet browser such
as IE, Netscape.
n
UPnP Internet Gateway Device
n
Upgrade firmware through Ethernet or wireless
l VPN support
n
VPN pass through for PPTP, L2TP and IPSec protocol.
l Printer sharing
n
Support bi-directional printers
n
Support standard printer port and USB port printers
Specification
WAN
Support
Ethernet Port
LAN
function (MDI-X)
Connector
RJ45 for 10/100 BaseT
Support
Both Ethernet and 802.3 with Max. Bit Rate 10/100Mbps with Auto cross-over
Ethernet Port
Antenna
Printer Port
Both Ethernet and 802.3 with Max. Bit Rate 10/100 Mbps with auto cross-over
function (MDI-X), 4 port switch
Connector
4 x RJ45 for 10/100BaseT
Support
2
Connector
Reverse-SMA antenna connector
(one internal Inverted-F antenna and one external dipole antenna)
USB Support
USB 1.1 host
port Connector
USB type A
Support
SPP, ECP
Connector
25 PIN D-SUB FEMALE
Reset button
Push for 5 seconds to restore factory setting
Management
Web-based manager
UPnP Internet Gateway Device
Firewall
NAT and SPI
Can built extra one firewall to protect Internet traffic and another one for wireless
DC Power Adapter
AC Input: 100V~240V(50~60HZ); DC Output: 5V with max. 2 A current
Emissions
ETS; CE Mark; FCC Part 15
Size
142 mm (L)* 205 mm (W)* 36 mm (H) excluding one external antennas
Weight
600 g excluding power supply
Operating Frequency
2.4 - 2.5 GHz
Spreading
Direct Sequence Spread Spectrum
Modulation
OFDM, CCK , DQPSK, DBPSK
Data Rate
802.11b:1, 2, 5.5, 11Mbps
11 for N. America, 14 Japan, 13 Europe(ETSI)
Operation Channels
3 (non-overlapping)
Outdoor (LOS, Light-Of-Sight) 300 ft (90 m) at 11Mbps
Range
The range may vary by different environment
Output Power
12 ~ 15 dBm (at nominal temp. range)
40/128-bit WEP
Encryption
WPA
Authentication
MAC address, 802.1x
ASUS SpaceLink
Wireless LAN Mini-PCI Card
WL-120
IEEE 802.11b 11 Mbps
[features]
Embedded to any notebook with mPCI type IIIA slot
Seamless roaming between home, office and café shop with profiles auto-switch
Online trouble shooting tool eliminate any confusions during enjoy your wireless
networking
Site survey tool to ease the wireless networking topology optimization
Secure 40/128-bit WEP with periodically change keys
Comply to Windows XP WLAN support functions
[Specifications]
Host interface
32-bit Mini-PCI interface, type IIIA, 3.3V only
Network Standard
IEEE 802.11b
Data Rate
11 Mbps with automatic fallback to 5.5, 2 and 1 Mbps ; CH14 : 2 & 1 Mbps .
Modulation
CCK (11Mbps, 5.5Mbps), DQPSK (2Mbps), DBPSK (1Mbps)
Technology
Direct Sequence Spread Spectrum
Network Architecture Types
Infrastructure and ad-hoc
Operating Frequency
2.412-2.462 GHz (N. America); 2.412-2.484 GHz (Japan); 2.412-2.472 GHz (Europe ETSI); 2.457-2.462 GHz
(Spain); 2.457-2.472 GHz (France)
Operating Channels
CH1~CH13 for Worldwide, CH1~CH14 Japan,Thailand, CH5~CH7 Israel , CH10~CH13 Jordan ,
RF Output Power
14 ~ 17 dBm
Antenna connectors
There are two antenna connector, mark as MAIN and AUX.
; Channel 14 : 12.5~15dBm. (at nominal temp. range)
Transmission through MAIN antenna, and support receiving diversity through both antenna.
The antenna ports is 50 ohms nominal impedance, with a VSWR of 1.5:1 maximum in the frequency band of
interest
Range
Indoor 100 ft (30 m), semi-open 200 ft (60 m), outdoor (LOS, Light-Of-Sight) 600 ft (180 m) at 11Mbps
The range may vary by different environment
Receiver Sensitivity
PER< 8% @ length=1024 octets
(at nominal temp. range)
11Mbps: -82 ~ -85 dBm; 5.5Mbps: -85 ~ -88 dBm;
2 Mbps: -88 ~ -91 dBm; 1 Mbps: -91 ~ -93 dBm
Power Consumption
TX power consumption:350~450 mA
RX power consumption :250~350 mA
WEP
40/128-bit WEP; each includes 4 user-defined keys; periodically change key to maximize security
Utilities
Mobile control center: Integrate all tools and indicate real time status information on system tray
Wireless setting: Diagnose and configure your wireless network settings with on-line trouble shooting feature.
Mobile manager: Support automatic roaming and network reconfiguration between different locations
Site survey: Explore your wireless networking topology through a handy way
Live Update: Download the newest driver and utilities from Internet
Windows XP Compatibility
Native support for all built-in WLAN functions, like Zeroconfig, Media Sense and 802.1x
Support OS
Windows 98, ME, 2000, NT 4, XP, CE 3.0, Pocket PC 2002 and Linux
LED Indicators
1. WLAN Activity Indicator
The LED_WLAN_Activity output signal from Pin11 of the MPCI system connector is
named LED_WLAN_ACTIVITY. This pin will provide a 7mA source current for 3.3V LED
operation. The operation of the LED is:
ON (3.3V) =
There is WLAN activity ongoing (packets are being sent or
received), AND the card is already associated. If the card is not associated, this
LED will remain OFF. It is required that this LED will flash in accordance with the
activity such that higher levels of activity result in the LED being ON longer.
OFF (low) =
The WLAN card is not associated. If it is associated, then the
LED remains OFF while there is no WLAN activity ongoing.
2. WLAN Radio State Indicator
The LED_WLAN_RadioState output signal from Pin12 of the MPCI system connector is
named LED_WLAN_RADIO_ON. This signal will reflect the actual state of the radio, and
not the state of a user setting, software, switch or anything else. This pin will provide a 7mA
source current for 3.3V LED operation.
ON (3.3V) = The WLAN radio is on, and is capable of transmitting. The LED is ON
even if the radio is not actually transmitting. If the card has a way of independently
turning off the transmit section, then this LED is ON when the transmitter section is in
any state that is capable of transmitting.
OFF (low) = The WLAN radio is NOT capable of transmitting unless the user performs
some action to change the state of the radio.
Operating Temperature
-10 ~ 55℃
Storage Temperature
-40~ 70℃
Humidity (non-condensing)
5~95%
Emissions
ETS 300 328 and ETS 300 826; CE Mark; FCC Part 15C, Section 15.247
Size
60 mm L* 50.1 mm W* 2.5 mm H(± 0.2)
Weight
10 g
[Pictures]
MPCI Antenna Connector Placement
59.75
41.7
53.7
50.95
48.3
M
MPCI
Card
A
User Manual
®
SpaceLink Home Gateway
WL-500g
User’s Manual
Copyright Information
No part of this manual, including the products and software described in it,
may be reproduced, transmitted, transcribed, stored in a retrieval system,
or translated into any language in any form or by any means, except
documentation kept by the purchaser for backup purposes, without the
express written permission of ASUSTeK COMPUTER INC. (“ASUS”).
ASUS PROVIDES THIS MANUAL “AS IS” WITHOUT WARRANTY
OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING BUT
NOT LIMITED TO THE IMPLIED WARRANTIES OR CONDITIONS
OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR
PURPOSE. IN NO EVENT SHALL ASUS, ITS DIRECTORS, OFFICERS,
EMPLOYEES OR AGENTS BE LIABLE FOR ANY INDIRECT,
SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES
(INCLUDING DAMAGES FOR LOSS OF PROFITS, LOSS OF
BUSINESS, LOSS OF USE OR DATA, INTERRUPTION OF BUSINESS
AND THE LIKE), EVEN IF ASUS HAS BEEN ADVISED OF THE
POSSIBILITY OF SUCH DAMAGES ARISING FROM ANY DEFECT
OR ERROR IN THIS MANUAL OR PRODUCT.
Product warranty or service will not be extended if: (1) the product is
repaired, modified or altered, unless such repair, modification of alteration
is authorized in writing by ASUS; or (2) the serial number of the product is
defaced or missing.
Products and corporate names appearing in this manual may or may not be
registered trademarks or copyrights of their respective companies, and are
used only for identification or explanation and to the owners’ benefit, without
intent to infringe.
SPECIFICATIONS AND INFORMATION CONTAINED IN THIS
MANUAL ARE FURNISHED FOR INFORMATIONAL USE ONLY, AND
ARE SUBJECT TO CHANGE AT ANY TIME WITHOUT NOTICE, AND
SHOULD NOT BE CONSTRUED AS A COMMITMENT BY ASUS. ASUS
ASSUMES NO RESPONSIBILITY OR LIABILITY FOR ANY ERRORS
OR INACCURACIES THAT MAY APPEAR IN THIS MANUAL,
INCLUDING THE PRODUCTS AND SOFTWARE DESCRIBED IN IT.
Copyright © 2002 ASUSTeK COMPUTER INC. All Rights Reserved.
Product Name:
Manual Revision:
Release Date:
2
SpaceLink Home Gateway (WL-500g)
1.00 E1062
Aug 2002
Copyright Information
ASUSTeK COMPUTER INC. (Asia-Pacific)
Address:
General Tel:
General Fax:
General Email:
150 Li-Te Road, Peitou, Taipei, Taiwan 112
+886-2-2894-3447
+886-2-2894-3449
[email protected]
Technical Support
MB/Others (Tel):
+886-2-2890-7121 (English)
Notebook (Tel):
+886-2-2890-7122 (English)
Desktop/Server (Tel): +886-2-2890-7123 (English)
Support Fax:
+886-2-2890-7698
Support Email:
[email protected]
Web Site:
www.asus.com.tw
Newsgroup:
cscnews.asus.com.tw
ASUS COMPUTER INTERNATIONAL (America)
Address:
General Fax:
General Email:
6737 Mowry Avenue, Mowry Business Center,
Building 2, Newark, CA 94560, USA
+1-510-608-4555
[email protected]
Technical Support
Support Fax:
+1-510-608-4555
Web Site:
www.asus.com
Support Email:
[email protected]
ASUS COMPUTER GmbH (Europe)
Address:
General Fax:
General Email:
Harkortstr. 25, 40880 Ratingen, BRD, Germany
+49-2102-442066
[email protected] (for marketing requests only)
Technical Support
Support Hotline:
MB/Others: +49-2102-9599-0
Notebook (Tel):
+49-2102-9599-10
Support Fax:
+49-2102-9599-11
Support (Email):
www.asuscom.de/de/support (for online support)
Web Site:
www.asuscom.de
3
Safety Statements
Federal Communications Commission Statement
This device complies with FCC Rules Part 15. Operation is subject to the following
two conditions:
•
•
This device may not cause harmful interference, and
This device must accept any interference received, including interference that
may cause undesired operation.
This equipment has been tested and found to comply with the limits for a class B
digital device, pursuant to Part 15 of the Federal Communications Commission (FCC)
rules. These limits are designed to provide reasonable protection against harmful
interference in a residential installation. This equipment generates, uses, and can
radiate radio frequency energy and, if not installed and used in accordance with the
instructions, may cause harmful interference to radio communications. However,
there is no guarantee that interference will not occur in a particular installation. If
this equipment does cause harmful interference to radio or television reception, which
can be determined by turning the equipment off and on, the user is encouraged to try
to correct the interference by one or more of the following measures:
•
•
•
•
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and receiver.
Connect the equipment into an outlet on a circuit different from that to which
the receiver is connected.
Consult the dealer or an experienced radio/TV technician for help.
WARNING! The use of a shielded-type power cord is required in
order to meet FCC emission limits and to prevent interference to
the nearby radio and television reception. It is essential that only
the supplied power cord be used. Use only shielded cables to connect I/O devices to this equipment. You are cautioned that changes
or modifications not expressly approved by the party responsible
for compliance could void your authority to operate the equipment.
Reprinted from the Code of Federal Regulations #47, part 15.193, 1993. Washington
DC: Office of the Federal Register, National Archives and Records Administration,
U.S. Government Printing Office.
Canadian Department of Communications
This digital apparatus does not exceed the Class B limits for radio noise emissions
from digital apparatus set out in the Radio Interference Regulations of the Canadian
Department of Communications.
This Class B digital apparatus complies with Canadian ICES-003.
Cet appareil numérique de la classe B est conforme à la norme
NMB-003 du Canada.
4
Safety Information
In order to maintain compliance with the FCC RF exposure guidelines,
this equipment should be installed and operated with minimum distance 20
cm between the radiator and your body. Use only with supplied antenna.
Unauthorized antenna, modification, or attachments could damage the
transmitter and may violate FCC regulations. Any changes of modifications
not expressly approved by the grantee of this device could void the users
authority to operate the equipment.
FCC Radio Frequency Exposure Caution Statement
Installation and use of this Wireless LAN device must be in strict accordance
with the instructions included in the user documentation provided with the
product. Any changes or modifications (including the antennas) made to
this device that are not expressly approved by the manufacturer may void
the user’s authority to operate the equipment. The manufacturer is not
responsible for any radio or television interference caused by unauthorized
modification of this device, or the substitution or attachment of connecting
cables and equipment other than manufacturer specified. It is the
responsibility of the user to correct any interference caused by such
unauthorized modification, substitution or attachment. Manufacturer and
its authorized resellers or distributors will assume no liability for any damage
or violation of government regulations arising from failing to comply with
these guidelines.
5
Table of Contents
1. Introduction .......................................................................................... 8
The SpaceLink™ Family ....................................................................... 8
System Requirements ........................................................................... 8
The Product Package ....................................................................... 9
FEATURES .......................................................................................... 10
The IEEE 802.11b Specification .......................................................... 11
Direct-Sequence Spread Spectrum ..................................................... 12
Wireless Operation .............................................................................. 13
Roaming Between SpaceLink™ Gateways or APs ......................... 14
Roaming Guidelines (SpaceLink™ Gateways or APs) ................... 15
SpaceLink™ Home Gateway Topology ............................................... 16
SpaceLink Home Gateway LED Indicators ......................................... 19
2. Installation .......................................................................................... 20
Installation Procedure .......................................................................... 20
Wall Mounting Option .......................................................................... 22
Vertical Standing Option ...................................................................... 23
Connecting to the SpaceLink Home Gateway ..................................... 24
Configuring the SpaceLink Home Gateway ......................................... 25
Installing the Homegateway Utilities ............................................... 26
3. SpaceLink Home Gateway Utilities .................................................. 27
Connecting to the SpaceLink Web Manager ....................................... 27
Home Gateway Discovery ................................................................... 27
User Name and Password .............................................................. 29
Home Page ..................................................................................... 29
Login Password ................................................................................... 30
Basic Setup ......................................................................................... 30
Status .................................................................................................. 31
Status Details .................................................................................. 32
Basic Setup - Wireless ........................................................................ 33
Supported Clients ........................................................................... 35
Basic Setup - LAN Configuration ......................................................... 37
Basic Setup - WAN Configuration ....................................................... 38
Network Backbone .......................................................................... 38
Agent to an ISP ............................................................................... 39
Agent to Another Network ............................................................... 42
Automatic IP .................................................................................... 42
Static IP ........................................................................................... 43
Firewall ................................................................................................ 44
6
Table of Contents
Wireless Access Control ...................................................................... 45
Advanced WAN Configuration ............................................................. 46
Virtual Server ....................................................................................... 48
Special Application .............................................................................. 50
Firewall Bypass Zone .......................................................................... 51
PPTP Server ........................................................................................ 52
Firmware Upgrade ............................................................................... 53
Restoring Factory Default Settings ................................................. 54
Firmware Restoration .......................................................................... 55
Using a Hub .................................................................................... 55
Printer Setup Wizard ........................................................................... 56
Add Printer Wizard .......................................................................... 56
Printer Setup Wizard ....................................................................... 58
Verifying Your Printer ...................................................................... 59
VPN Client ........................................................................................... 60
Starting VPN Client ......................................................................... 60
Main Window ....................................................................................... 60
Connection Properties ......................................................................... 62
Connection Name ........................................................................... 62
Dialing Options ................................................................................ 62
Advanced Properties ....................................................................... 63
Dialing a Connection ....................................................................... 63
4. Wireless Performance ....................................................................... 64
Site Topography ................................................................................... 64
Site Surveys ........................................................................................ 64
Range .................................................................................................. 65
5. Troubleshooting ................................................................................. 66
Common Problems and Solutions ....................................................... 66
Reset to Defaults ................................................................................. 67
6. Appendix ............................................................................................. 70
Operating frequency range .................................................................. 70
Number of operating channels ............................................................ 70
DSSS PHY frequency channel plan .................................................... 70
SpaceLink Home Gateway Specifications ........................................... 71
Glossary .............................................................................................. 72
7
Chapter 1 - Introduction
1. Introduction
1. Introduction
Thank you for choosing the SpaceLink Home Gateway, a member of ASUS’
SpaceLink wireless infrastructure family. The SpaceLink Home Gateway
complies with the IEEE 802.11b wireless standard to provide wireless
mobile clients with network connectivity at data rates of up to 11 Mbps.
The stand-alone the SpaceLink Home Gateway connects to a small Ethernet
network to provide wireless access for wireless mobile clients.
The SpaceLink™ Family
The SpaceLink Home Gateway is a member of a product family that
provides a complete wireless networking solution.
•
•
•
•
The SpaceLink Home Gateway (WL-500g) creates a wireless network
using the IEEE 802.11b wireless standard and adds a router, hub, and
printer server.
The SpaceLink Access Point (WL-300) creates a wireless network
using the IEEE 802.11b wireless standard.
The SpaceLink PC Card (WL-100) is a wireless LAN adapter that
fits into a PCMCIA Type II slot in a Notebook PC.
The SpaceLink CF Card (WL-110) is a wireless LAN adapter that fits
into a Compact Flash Type II slot in a Portable Digital Assistant (PDA).
System Requirements
To begin using the SpaceLink Home Gateway , you must have the following
minimum requirements:
• ADSL/Cable Modem and Broadband Internet Account
• An Ethernet (10Base-T or 10/100Base-TX) adapter for wired client
• At least one 802.11b wireless adapter for a wireless mobile client
• TCP/IP and Internet browser installed
• Printer, which supports standard parallel protocol (SPP) (optional)
Note: The SpaceLink Home Gateway only supports 10Base-T on
the WAN port and both 10Base-T and 100Base-TX on the LAN port.
8
1. Introduction
The Product Package
Each the SpaceLink Home Gateway comes with:
•
•
•
•
•
One SpaceLink Home Gateway (WL-500g)
One power adapter (5 Volts DC, 2 Amp)
One RJ-45 Ethernet cable (straight-through)
One SpaceLink Home Gateway (WL-500g) Quick Start Guide
One support CD (Utilities and User’s Manual PDF)
9
1. Introduction
FEATURES
The SpaceLink Home Gateway features include:
•
•
•
•
•
•
•
•
•
•
10
Multiple local network ports. Four 10/100Base-T Ethernet ports,
offering either a connection to a hub or switch on the local wired network
or a direct connection to multiple Ethernet-enabled computer.
Wireless antenna. The integrated Wireless Access Point allows the
SpaceLink Home Gateway to link a broadband Internet connection to
your local network of 802.11b (DSSS) wireless mobile clients.
Broadband port. The Broadband port connects the SpaceLink Home
Gateway to your cable/DSL modem.
Shared Internet access. All computers on the local network can access
the Internet through the SpaceLink Home Gateway, using only a single
external IP address.
DHCP server support. DHCP (Dynamic Host Configuration Protocol)
support allows the SpaceLink Home Gateway to automatically provide
IP addresses to computers on your local network.
PPPoE support. Connect to your DSL provider using PPPoE (PPP
over Ethernet), if your ISP uses this method.
Easy setup and management. Use your web browser from any
computer on the local network to configure the SpaceLink Home
Gateway.
Advanced features. The SpaceLink Home Gateway supports many
advanced configuration features including the following: User-defined
virtual servers; special Internet applications; exposed computer;
password protection and access control.
Firewall protection. The SpaceLink Home Gateway’s use of NAT
(Network Address Translation) provides firewall protection for your
local network. NAT masks the local network’s IP Addresses from the
Internet. Additional protection can be achieved using the advanced
features of the SpaceLink Home Gateway.
WEP support. Supports 64 bit and 128 bit WEP encryption on the
wireless network.
1. Introduction
The IEEE 802.11b Specification
In 1997, the Institute of Electrical and Electronics Engineers (IEEE) adopted
the 802.11 standard for wireless devices operating in the 2.4 GHz frequency
band. This standard includes provisions for three radio technologies: direct
sequence spread spectrum, frequency hopping spread spectrum, and
infrared. Devices that comply with the 802.11 standard operate at a data
rate of either 1 or 2 Mbps.
In 1999, the IEEE created the 802.11b standard. 802.11b is essentially
identical to the 802.11 standard except 802.11b provides for data rates of
up to 11 Mbps for direct sequence spread spectrum devices. Under 802.11b,
direct sequence devices can operate at 11 Mbps, 5.5 Mbps, 2 Mbps, or 1
Mbps. This provides interoperability with existing 802.11 direct sequence
devices that operate only at 2 Mbps.
Direct sequence spread spectrum devices spread a radio signal over a range
of frequencies. The IEEE 802.11b specification allocates the 2.4 GHz
frequency band into 14 overlapping operating Channels. Each Channel
corresponds to a different set of frequencies. See the Appendix to determine
the center frequency used by each Channel.
If operating multiple 802.11b Home Gateways in the same vicinity, the
distance between the center frequencies must be at least 25 MHz to avoid
interference. Note that the Channels available to an 802.11b Home Gateway
will vary from country to country. In the United States, the 802.11b standard
allocates 11 operating Channels for direct sequence devices. Channels 1,
6, and 11 are independent and do not overlap with each other. To avoid
interference between 802.11b Home Gateways, It is recommended that you
configure the Home Gateways using only Channels 1, 6, and 11.
11
1. Introduction
Direct-Sequence Spread Spectrum
Spread spectrum (broadband) uses a narrowband signal to spread the
transmission over a segment of the radio frequency band or spectrum. Directsequence is a spread spectrum technique where the transmitted signal is
spread over a particular frequency range. The Space Link Home Gateway
uses Direct-Sequence Spread Spectrum (DSSS) for radio communication.
Direct-sequence systems communicate by continuously transmitting a
redundant pattern of bits called a chipping sequence. Each bit of transmitted
data is mapped into chips by the Home Gateway and rearranged into a
pseudorandom spreading code to form the chipping sequence. The chipping
sequence is combined with a transmitted data stream to produce the Home
Gateway output signal.
Wireless mobile clients receiving a direct-sequence transmission use the
spreading code to map the chips within the chipping sequence back into
bits to recreate the original data transmitted by the Home Gateway.
Intercepting and decoding a direct-sequence transmission requires a
predefined algorithm to associate the spreading code used by the transmitting
Home Gateway to the receiving wireless mobile client.
This algorithm is established by IEEE 802.11b specifications. The bit
redundancy within the chipping sequence enables the receiving wireless
mobile client to recreate the original data pattern, even if bits in the chipping
sequence are corrupted by interference. The ratio of chips per bit is called
the spreading ratio. A high spreading ratio increases the resistance of the
signal to interference. A low spreading ratio increases the bandwidth
available to the user. The Home Gateway uses a constant chip rate of
11Mchips/s for all data rates, but uses different modulation schemes to
encode more bits per chip at the higher data rates. The Home Gateway is
capable of an 11 Mbps data transmission rate, but the coverage area is less
than a 1 or 2 Mbps Home Gateway since coverage area decreases as
bandwidth increases.
12
1. Introduction
Wireless Operation
The SpaceLink Home Gateway will operate as a MAC layer learning bridge
and forward packets between wireless mobile clients and the Ethernet
network.
A wireless LAN that uses the SpaceLink Home Gateway generally consists
of one or more 802.11b Access Points and one or more wireless mobile
clients that have an 802.11b adapter installed.
The SpaceLink Home Gateway maintains a table of MAC addresses, which
it has learned are located either on the Ethernet network or on the radio
network by monitoring the source address of packets it receives. For
example, if the SpaceLink Home Gateway receives a packet over its radio,
it creates an entry in its table for the node that sent the packet and labels the
entry as a member of the radio network. The SpaceLink Home Gateway
removes an entry from the table after five minutes of inactivity.
When the SpaceLink Home Gateway receives a packet from the Ethernet
network, it compares the packet’s destination address with the node
addresses listed in its table. If the packet’s destination address is not in the
table, the SpaceLink Home Gateway will forward the packet to the wireless
mobile clients. If the packet’s destination address is listed in the table as a
member of the radio network, the SpaceLink Home Gateway will forward
the packet to the wireless mobile clients. If the packet’s destination address
is listed in the table as a member of the Ethernet network, the SpaceLink
Home Gateway will not forward the packet to the wireless mobile clients.
The SpaceLink Home Gateway applies the same principles to determine if
a packet received over its radio should be forwarded to the Ethernet network.
The SpaceLink Home Gateway forwards all broadcast packets to wireless
mobile clients. Given this, the SpaceLink Home Gateway can only support
250 nodes.
The speed available to wireless mobile clients depends on the amount of
information that each client exchanges with the network because the 11
Mbps wireless bandwidth is shared will all wireless nodes.
13
1. Introduction
Roaming Between SpaceLink™ Gateways or APs
If there are multiple SpaceLink Home Gateways or Access Points on the
network, then a wireless mobile client may seamlessly roam from one the
SpaceLink Home Gateway or Access Point to another.
Each SpaceLink Home Gateway or Access Point creates its own wireless
cell or coverage area. This is also known as a Basic Service Set (BSS). Any
wireless mobile client can communicate with a particular SpaceLink Home
Gateway or Access Point if it is within the SpaceLink Home Gateway’s or
Access Point’s coverage area.
If the cells of multiple SpaceLink Home Gateways or Access Points overlap,
then the wireless mobile client may switch from one SpaceLink Home
Gateway or Access Point to another as it travels throughout the facility.
During the hand-off from one SpaceLink Home Gateway or Access Point
to another, the wireless mobile client maintains an uninterrupted connection
to the network. This is known as “roaming.”
Multiple SpaceLink Home Gateways connected to a common Ethernet
network form an Extended Service Set (ESS). All members of an Extended
Service Set are configured with an ID, known as the SSID or ESSID.
Wireless mobile clients must be configured with the same SSID as the
SpaceLink Home Gateways or Access Points on the network; a client can
only roam between the SpaceLink Home Gateways or Access Points that
share the same SSID.
14
•
•
•
•
•
•
•
1. Introduction
Roaming Guidelines (SpaceLink™ Gateways or APs)
A 802.11b PC Card can only roam between 802.11b SpaceLink Home
Gateways or Access Points.
All the SpaceLink Home Gateways or Access Points must have the
same SSID.
All computers with SpaceLink PC card or CF card adapters must have
the same SSID as the Home Gateways or Access Points that they will
roam between.
If WEP encryption is enabled, then all the SpaceLink Home Gateways
or Access Points and client adapters must use the same encryption level
and WEP Key(s) to communicate.
The SpaceLink Home Gateways’ or Access Points’ cells must overlap
to ensure that there are no gaps in coverage and to ensure that the roaming
client will always have a connection available.
The SpaceLink Home Gateways or Access Points that use the same
Channel should be installed as far away from each other as possible to
reduce potential interference.
It is strongly recommended that you perform a site survey using the
utility provided with the SpaceLink PC card or CF card to determine
the best location for each the SpaceLink Home Gateway or Access Points
in the facility.
15
1. Introduction
SpaceLink™ Home Gateway Topology
There are three major ways to deploy the home gateway in your local
network (I) Network backbone, (II) Agent to ISP and (III) Agent to another
network.
Network Backbone
Wireless
LAN
Wireless Client
Wireless Client
Wired Client
In this topology, the home gateway connects your wired and wireless devices
together to form a local area network (LAN), as shown. To connect a
computer (or other device) to the SpaceLink Home Gateway, you need a
network cable (UTP-Cat5) with one end connected to one of the LAN ports
on the back of the SpaceLink Home Gateway and the other in the 10/100
LAN port on that device. For wireless connections, wireless mobile clients
must comply with the IEEE 802.11b standard.
16
1. Introduction
Agent to ISP
Internet
Internet Service Provider
ADSL or Cable Modem
Wireless
WAN
LAN
Wireless Client
Wireless Client
Wired Client
In this topology, the home gateway is not only a backbone of your LAN
but also an agent to your Internet Service Provider (ISP). You may use an
ADSL or Cable modem to communicate with your ISP. Connect the LAN
port on the modem with the WAN port at the back of the SpaceLink Home
Gateway using a network cable as shown above.
Note: You also need to make sure that other connections on the
ADSL or Cable modem are correct.
17
1. Introduction
Agent to Another Network
Network Backbone
Wireless
WAN
LAN
Wireless Client
Wireless Client
Wired Client
In this topology, the home gateway is an agent between your LAN and
another network. Use a network cable with one end connected to the WAN
port on the home gateway and the other to the other network as shown
above.
18
1. Introduction
SpaceLink Home Gateway LED Indicators
LPT
LAN
WAN
AIR
PWR
The LEDs on the front of the SpaceLink Home Gateway display the status
of the SpaceLink Home Gateway.
PWR (Power)
Off
(1) No power, (2) During boot sequence
On
(1) Power ON and system ready
Flashing
(1) During boot sequence, (2) Self-test error
AIR (Wireless)
Off
(1) No power, (2) No wireless connection
On
(1) At least one wireless client is associated
Flashing
(1) Wireless traffic through this port is detected, (2) Self-test error
WAN (Wide Area Network)
Off
(1) No power, (2) No wired connection
On
(1) Link to another network device but no traffic
Flashing
(1) Wired traffic through this port is detected, (2) Self-test error
LAN (Local Area Network)
Off
(1) No power, (2) No wired connection
On
(1) Link to another network device but no traffic
Flashing
(1) Wired traffic through this port is detected, (2) Self-test error
LPT (Printer)
Off
(1) No power, (2) No printer is connected
On
(1) The connected printer is switched on
Flashing
(1) Send data to a printer
Note: The SpaceLink Home Gateway only supports 10Base-T on
the WAN port and both 10Base-T and 100Base-TX on the LAN port.
19
Chapter 2 - Installation
2. Installation
This chapter describes the installation procedure for the SpaceLink Home
Gateway and includes a description of the LEDs found on the unit.
Installation Procedure
Follow these steps to install the SpaceLink Home Gateway.
2. Installation
1. Location: Determine the best location for the SpaceLink Home
Gateway. Keep in mind the following considerations:
• The length of the Ethernet cable that connects the Home Gateway
to the network must not exceed 100 meters.
• For standard placement, try to place the Home Gateway on a flat,
sturdy surface as far from the ground as possible, such as on top of
a desk or bookcase, keeping clear of metal obstructions and away
from direct sunlight.
• Try to centrally locate the Home Gateway so that it will provide coverage to all of the wireless mobile devices in the area. Orientating the
antenna vertically should provide the best reception.
• Use only the power supply that came with this unit. Other power
supplies may fit but the voltage and power may not be compatible.
It is the responsibility of the installer and users of the SpaceLink
Home Gateway to guarantee that the antenna is operated at least
20 centimeters from any person. This is necessary to insure that
the product is operated in accordance with the RF Guidelines for
Human Exposure which have been adopted by the Federal Communications Commission.
2. Mounting: Place the Home Gateway in the desired location. Wall
mounting is also possible for the Home Gateway. Refer to the section
entitled “Wall Mounting Option” for details.
3. WAN Connection: Attach one end of the provided RJ-45 Ethernet cable
to the SpaceLink Home Gateway’s WAN port and attach the other end
to the RJ-45 Ethernet cable to your ADSL or Cable modem.
The SpaceLink Home Gateway WAN port does not support 100BaseTX; it only supports 10Base-T. The WAN port may be connected to
devices that supports both 10/100, but not pure 100Base-TX.
20
2. Installation
4. LAN Connection: Attach one end of an RJ-45 Ethernet cable to the
SpaceLink Home Gateway’s LAN port (any one of the four) and attach
the other end to the RJ-45 Ethernet cable to your desktop computer.
5. Power Connection: The SpaceLink Home Gateway requires power
from an external power supply. The SpaceLink Home Gateway ships
with a UL listed, Class 2 power supply (5V, 2A). Attach one end of the
DC power adapter to the back of the SpaceLink Home Gateway and the
other end to a power outlet.
The Power LED on the front of the Home Gateway will light up when
the unit is powered ON. In addition, the green LAN or WAN LEDs will
turn ON to indicate that the Home Gateway has a physical Ethernet
network connection.
Note: Use the Home Gateway only with the power adapter supplied
in the product package. Using another power supply may damage
the Home Gateway.
6. Printer Connection: If you plan to use the home gateway as a printing
server for your local network, connect a printer to the printer port of the
home gateway via a printer cable.
21
Wall Mounting Option
Out of the box, the SpaceLink Home Gateway is designed to sit on a raised
flat surface like a file cabinet or book shelf. The unit may also be converted
for mounting to a wall or ceiling.
Follow these steps to mount the Home Gateway to a wall:
2. Installation
1.
2.
3.
4.
Look on the underside for the four mounting hooks.
Mark two upper holes in a flat surface using the provided hole template.
Tighten two screws until only 1/4” is showing.
Latch the upper two hooks of the Home Gateway onto the screws.
Note: Readjust the screws if you cannot latch the Home Gateway
onto the screws or if it is too loose.
22
Vertical Standing Option
2. Installation
The ASUS Home Gateway can also stand on its side to save space. Two
hinges can be opened on the right side to support vertical standing. Orientate
the antenna so that it points upwards.
Support Hinge
23
Connecting to the SpaceLink Home Gateway
2. Installation
Wired Connection
One RJ-45 cable is supplied with the SpaceLink Home Gateway. Auto
crossover function is designed into the SpaceLink Home Gateway so you
can use either a straight-through or a crossover Ethernet cable. Plug one
end of the cable into the WAN port on the rear of the SpaceLink Home
Gateway and the other end into the Ethernet port of your ADSL or Cable
modem.
Note: The WAN port only supports 10Base-TX.
Wireless-Connection
Refer to your wireless adapter user’s manual on associating with the
SpaceLink Home Gateway . The default SSID of the SpaceLink Home
Gateway is “default” (lower case), encryption is disabled and open system
authentication is used.
Printer Connection
The SpaceLink Home Gateway can be utilized as a printer server to allow
many wired or wireless computers to share a standard printer. A DB25
parallel cable should be supplied with your printer. Plug the male connector
of this parallel cable into the printer port on the rear of the SpaceLink
Home Gateway and the centronics end into your printer.
Printer Port
24
Configuring the SpaceLink Home Gateway
The home gateway can be configured to meet various usage scenarios.
Some of the factory default settings may suit your usage; however, others
may need changing. Prior to using the home gateway, you must check the
basic settings to guarantee it will work in your environment.
2. Installation
Configuring the SpaceLink Home Gateway is done through a web browser.
You need a Notebook PC or desktop PC connected to the SpaceLink Home
Gateway and running a web browser as a configuration terminal. The
connection can be wired or wireless. For the wireless connection, you need
an IEEE 802.11b compatible device, e.g. ASUS SpaceLink PC Card,
installed in your Notebook PC. You should also disable WEP and set the
SSID to “default” for your wireless LAN device.
If you want to configure the SpaceLink Home Gateway or want to access
the Internet through the SpaceLink Home Gateway, TCP/IP settings must
be correct. Normally, the TCP/IP setting should be on the IP subnet of the
SpaceLink Home Gateway. The SpaceLink Home Gateway incorporates a
DHCP server so the easiest method is to set your PC to get its IP address
automatically and reboot your computer. So the correct IP address, gateway,
DNS (Domain Name System Server) can be obtained from the SpaceLink
Home Gateway.
Note: Before rebooting your PC, the SpaceLink Home Gateway
should be switched ON and in ready state.
Advanced IP Settings
If you want to set your IP address manually, the following default settings
of the SpaceLink Home Gateway should be known:
• IP address 192.168.123.1
• Subnet Mask 255.255.255.0.
If you set your computer’s IP manually, it needs to be on the same segment.
For example:
•
•
•
•
IP address 192.168.123.xxx (xxx can be any number between 2 and
254 that is not used by another device)
Subnet Mask 255.255.255.0 (same as the SpaceLink Home Gateway )
Gateway 192.168.123.1 (this is the SpaceLink Home Gateway IP address)
DNS 192.168.123.1 (SpaceLink Home Gateway IP address or your own).
25
Installing the Homegateway Utilities
Follow these steps to install the SpaceLink Home Gateway Manager in
Microsoft Windows:
2. Installation
(1) Insert the support CD and the autorun (2) Click Next after reading the welcome
will show. Double-click setup.exe if
screen.
your autorun has been disabled.
(3) Click Yes after reading the license (4) Click Next to accept the default
agreement.
destination folder or enter another
name.
(5) Click Next to accept the default (6) Click Finish when setup is complete.
program folder or enter another name.
26
3. SpaceLink Home Gateway Utilities
3. Utilities
After installation, you can launch the utilities through the Start menu.
Connecting to the SpaceLink Web Manager
Wired Ethernet Connection
Besides using a network hub, you can also connect a LAN cable from your
computer’s network card to the Home Gateway using either a straight or
crossover cable because the SpaceLink Home Gateway LAN and WAN
RJ-45 ports have auto-crossover capability.
Wireless Connection
If you are using a Notebook PC with a wireless adapter, you can connect to
the SpaceLink Homegateway Web Manager without a wired Ethernet
connection.
Home Gateway Discovery
Run the ASUS Homegateway Discovery from the Start menu and click
Config on the device.
Manually Entering the Address
You can also open your PC’s web browser and enter the IP address of the
ASUS SpaceLink Home Gateway depending on the port you are using.
27
If your computer is connected to the WAN port use
http://(WAN Port IP Address):8080
If your computer is connected to the LAN port use:
http://192.168.123.1
3. Utilities
Web access through the WAN port (over the Internet) is disabled by default
so that the above private IP can be used for configuration access. If Internet
access through the WAN port is enabled by the user, port 8080 must be
used for configuration access. In this case, you would enter the following:
http://(WAN Port IP Address):8080 in your web browser.
If your computer’s IP is not on the
same subnet as the SpaceLink Home
Gateway, you will be asked to change
it. The IP address can be any number
from 2 to 254 that is not used by
another device.
Using a proxy server for your
LAN requires that you set an exception for the SpaceLink Home
Gateway or else connection will
fail.
28
If you cannot find any the SpaceLink Home Gateways due to a problem in the IP settings, push and hold the “Restore” button over five
seconds to restore factory default settings.
User Name and Password
3. Utilities
Once connected, a window will ask
for the User name and Password in
order to log in. The factory default
values are “admin” and “admin”.
Home Page
After logging in, you will see the ASUS HomeGateway home page.
29
Login Password
You can find “Login Password” on the Main Menu. This page will allow
you to change the default password “admin” (lower case) to any password
of you choice. You can enter any usable characters between 1-16 characters
long (cannot be left blank). Click Modify button to save your new password.
If you forget the SpaceLink Home Gateway’s password, you can reset the
SpaceLink Home Gateway to its factory settings (see troubleshooting).
Note: The password is case sensitive.
3. Utilities
Basic Setup
Select Basic Setup from the menu on the left.
Click Next to enter the wireless configuration page.
30
Status
3. Utilities
The Status page available from the Main Menu gives you all the necessary
information for monitoring the SpaceLink Home Gateway’s condition.
See next page for information on this page.
31
Status Details
Details of the Status page items are described in the configuration pages
following this page.
Wireless
Number of Associated Stations - Tells you how many wireless mobile
clients are connected to the SpaceLink Home Gateway.
LAN
DHCP Server - This shows either Enabled or Disabled.
LAN Port Link State - Linked or Not Linked (indicates whether the cable
is plugged in or not).
3. Utilities
WAN
WAN Port Link State - Linked or Not Linked (indicates whether the cable
is plugged in or not).
WAN Port Connection State: Disconnected, Connecting, OK (OK
indicates that the IP address is working).
Printer Server
Connected Printer Status: There are five possible statuses: Off-Line (no
printer), On-Line (ready), Error (problem), Out of Paper, Busy (someone
is printing).
User in Service: Shows the IP address of the user when the status is busy.
32
Basic Setup - Wireless
3. Utilities
This page allows you to configure the wireless settings. See next page for
descriptions on each setting.
IMPORTANT: New settings will only take effect after clicking the “Finish” button and waiting for the SpaceLink Home Gateway to restart.
33
SSID & Channel
The SSID is an identification string of up to 32 ASCII characters that
differentiate one SpaceLink Home Gateway or Access Point from another.
The SSID is also referred to as the “ESSID” or “Extended Service Set ID.”
You can use the default SSID and radio channel unless more than one SpaceLink
Home Gateway or Access Point is deployed in the same area. In that case, you
should use a different SSID and radio channel for each SpaceLink Home
Gateway or Access Point. All the SpaceLink Home Gateways and SpaceLink
802.11b client adapters must have the same SSID to allow a wireless mobile
client to roam between the SpaceLink Home Gateways. By default, the
SSID is set to “default”.
3. Utilities
Channel
IEEE 802.11b devices are direct sequence spread spectrum devices that
spread a radio signal over a range of frequencies. The range of frequencies
used by a direct sequence device is called a Channel.
The IEEE 802.11b specification supports up to 14 overlapping Channels
for radio communication. But only 11 Channels are supported in the United
States and therefore on the SpaceLink Home Gateway. To minimize
interference, configure each the SpaceLink Home Gateway to use Nonoverlapping channels. Non-overlapping channels have 25Mhz separation
beginning at the first allowed channel for the country (for the US and most
of Europe, channels 1, 6 & 11 are used).
Make sure that the SpaceLink Home Gateways sharing the same Channel
(or Channels close in number) are as far away from each other as possible,
based on the results of your site survey of the facility. You can find the site
survey utility in the SpaceLink PC card or CF card setup CD.
Basic Data Rate
Select “1, 2, 5.5 & 11Mbps” to maximize performance. Use “1 & 2 Mbps”
only when backward compatibility is needed for some older wireless LAN
cards with a maximum bit rate of 2Mbps.
The IEEE 802.11b specification supports four data rates: 11 Mbps, 5.5 Mbps,
2 Mbps, and 1 Mbps. As a wireless mobile client travels further and further
away from the SpaceLink Home Gateway, the data rate automatically decreases
in order to maintain a usable radio connection. Therefore, a client that is close
to an the SpaceLink Home Gateway may operate at 11 Mbps, but a client that
is far away from the SpaceLink Home Gateway may operate at 2 Mbps.
34
Supported Clients
802.11b products can operate at 11 Mbps, 5.5 Mbps, 2 Mbps or 1 Mbps. This
allows 802.11b devices to communicate with any existing 802.11 direct sequence
devices that operate only at 1 or 2 Mbps. By default, the SpaceLink Home Gateway
will support both 802.11b and 2 Mbps 802.11 direct sequence clients.
WEP
The IEEE 802.11b standard specifies an optional encryption feature, known
as Wired Equivalent Privacy or WEP, that is designed to provide a wireless
LAN with a security level equal to what is found on a wired Ethernet network.
3. Utilities
WEP encrypts the data portion of each packet exchanged on the 802.11b
network using either a 64-bit or 128-bit encryption algorithm. In addition,
WEP is also used in conjunction with the optional Shared Key
Authentication algorithm to prevent unauthorized devices from associating
with an 802.11b network.
Enabling WEP can protect your data from eavesdroppers. If you do not
need this feature, select “no” to skip the following setting. The SpaceLink
Home Gateway supports both 64-bit and 128-bit encryption using the Wired
Equivalent Privacy (WEP) algorithm. Select the type of encryption you
want to use (64 or 128 bit) and configure one to four WEP Keys. The “128bit” method is more secure than the “64-bit”.
64/128bits versus 40/104bits
You may be confused about configuring WEP encryption, especially when
using multiple wireless LAN products from different vendors. There are
two levels of WEP Encryption: 64 bits and 128 bits.
Firstly, 64 bit WEP and 40 bit WEP are the same encryption method and
can interoperate in the wireless network. This lower level of WEP encryption
uses a 40 bit (10 Hex character) as a “secret key” (set by user), and a 24 bit
“Initialization Vector” (not under user control). This together makes 64
bits (40 + 24). Some vendors refer to this level of WEP as 40 bits and
others refer to this as 64 bits. ASUS SpaceLink products use the term 64
bits when referring to this lower level of encryption.
Secondly, 104 bit WEP and 128 bit WEP are the same encryption method
and can interoperate in the wireless network. This higher level of WEP
encryption uses a 104 bit (26 Hex character) as a “secret key” (set by user),
and a 24 bit “Initialization Vector” (not under user control). This together
35
makes 128 bits (104 + 24). Some vendors refer to this level of WEP as 104
bits and others refer to this as 128 bits. ASUS SpaceLink products use the
term 128 bits when referring to this higher level of encryption.
Magic Word & Generate
Automatically generate four WEP keys. A WEP key is either 10 or 26
hexadecimal digits (0~9, a~f, and A~F) based on whether you select 64 bit
or 128 bit in the WEP pull-down menu. Type a combination of up to 64
letters, numbers, or symbols in the Magic Word column, then the SpaceLink
Home Gateway Manager uses an algorithm to generate four WEP keys for
encryption. If you want to type in the keys manually, leave this field blank.
The SpaceLink family of products all use the same algorithm to generate
the keys so that they can all use the same WEP key.
3. Utilities
Note: This function eases users from having to remember their
passwords and is compatible to ASUS SpaceLink family of products. But this is not as secure as manual assignment.
WEP Key
At most four keys can be set. A WEP key is either 10 or 26 hexadecimal
digits (0~9, a~f, and A~F) based on whether you select 64 bit or 128 bit in
the WEP pull-down menu. The home gateway and ALL of its wireless clients
MUST have at least the same default key.
Default Key
The Default Key field lets you specify which of the four encryption keys
you use to transmit data on your wireless LAN. As long as the SpaceLink
Home Gateway or wireless mobile client with which you are communicating
has the same key in the same position, you can use any of the keys as the
default key. If the home gateway and ALL of its wireless clients use the
same four WEP keys, select “key rotation” to maximize security. Otherwise,
choose one key in common as the default key.
Authentication Method
It is suggested to select “Shared Key Only”. If “Open System Only” or
“Shared Key and Open System” is used, the home gateway may accept
connection requests from unauthorized wireless clients.
Click the “Finish” button to save your new settings and restart the
SpaceLink Home Gateway or click “Save” and restart later.
36
Basic Setup - LAN Configuration
3. Utilities
This page does not require any settings for general use.
37
Basic Setup - WAN Configuration
The settings that you need to perform will vary depending on the role that
your SpaceLink Home Gateway will play.
Network Backbone
No software setting is necessary in the SpaceLink Home Gateway.
Wireless
3. Utilities
LAN
Wireless Client
Wireless Client
Wired Client
38
Agent to an ISP
Internet
Internet Service Provider
3. Utilities
ADSL or Cable Modem
Wireless
WAN
LAN
Wireless Client
Wireless Client
Wired Client
39
Agent to an ISP (Cont.)
3. Utilities
Static IP Address
IP Address - Normally, this is Dynamic (because fixed IP accounts cost
more) and should be set to Automatic IP. Do not use “Static IP” if your
ISP’s documentation does not mention an IP Address. If your ISP provided
an IP Address with instructions to use it, select Static IP from “IP Addressing
Method” and enter the address into the provided field.
PPPoE Account
User Name - The name of your Internet account provided by your ISP.
Some ISPs work with the entire account name along with the hosting domain
(such as [email protected]) and others require that you enter
only the account name (yourname). See the example above.
40
Agent to an ISP (Cont.)
Password - Enter the password for your Internet account.
Retype your password - Re-enter the password for confirmation.
DNS Settings
DNS Server - Normally this is automatic and you would answer “NO” to
the question about manually assigning DNS. If you are given instructions
from your ISP to enter DNS addresses, select “YES” to manually assigning
DNS and enter the IP addresses here. You can set the DNS server anytime
using any connection type (Static IP, PPPoE, or Automatic IP).
3. Utilities
41
Agent to Another Network
Network Backbone
Wireless
WAN
LAN
3. Utilities
Wireless Client
Wireless Client
Wired Client
To connect to an existing network, the IP address of the home gateway can
be assigned manually or automatically obtained from a DHCP server. In
the first case, fill in the IP address and the DNS address(es).
Automatic IP
This parameter determines if the SpaceLink Home Gateway will send out
a DHCP request during bootup. If you have a DHCP server on the network,
set this option so that the SpaceLink Home Gateway can receive an
automatic IP address assignment.
If you have a DHCP (Dynamic Host Configuration Protocol) server on the
network, then the DHCP server will automatically assign the SpaceLink Home
Gateway an IP address when the SpaceLink Home Gateway is powered up. To
determine what IP address has been assigned to the SpaceLink Home Gateway,
review the IP address on the “Status” page available on the “Main Menu”.
42
Static IP
3. Utilities
The SpaceLink Home Gateway also accepts a static IP address. You may
manually configure the IP address and subnet mask on the “IP Config”
page. Enter an IP address and a subnet mask in the field provided to assign
the SpaceLink Home Gateway a static IP address. If you don’t now your
Gateway setting, leave it empty (not 0.0.0.0).
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Firewall
The SpaceLink Home Gateway does not only use basic NAT to protect
your local network. The SPI (Stateful Packet Inspection) firewall filters
out advanced forms of attacks from the Internet. A SPI firewall remembers
the context of connections and continuously updates this information in
dynamic connection tables.
3. Utilities
Select the security level for the firewall that you require. “Low” should be
good enough for most home users. “Medium” and “High” levels can provide
more protection for your local network but they may also stop you from
executing some Internet applications. These problems can be overcome
through advanced configuration options by clicking on the Advanced button.
44
3. Utilities
Wireless Access Control
(Redundant portion intentionally removed)
To add security, the SpaceLink Home Gateway has the ability to only
associate with or not associate with wireless mobile clients that have their
MAC address entered into this page.
The default setting of “Disable” will allow any wireless mobile client to
connect. “Accept” will only allow those entered into this page to connect.
“Reject” will prevent those entered into this page from connecting.
Adding a MAC Address
To add a MAC address, enter the 12 hexadecimal characters into the white box
next to “MAC Address:” and click the Add button. The MAC address will be
placed in the control list below. Only a total of 31 MAC addresses can be entered
into this page so determine which will be the lesser; those you wish to accept or
those you wish to reject and click the appropriate “MAC Access Mode”.
45
Advanced WAN Configuration
3. Utilities
IP Addressing Method - This displays the current selection in the Basic
Setup WAN Configuration.
PPPoE Options
The SpaceLink Home Gateway can automatically terminate the connection
to your Internet Service Provider (ISP) when the connection is idle over a
specific time.
46
Disconnect when idle time exceeds seconds - Enter the number of seconds
of inactivity to disconnect you from your ISP.
Always connected - This will always keep you connected to your ISP and
reconnect if connection fails.
The following two items may be specified by some ISPs. Check with your
ISP and fill them in if required.
Service Name - Fill this in if required by your ISP.
Access Concentrator Name - Fill this in if required by your ISP.
Note: The above options are valid only when PPPoE is selected as
the WAN IP Addressing Method in Basic Setup. Otherwise they will
be grayed out.
3. Utilities
Special Requirements
The following two items may be specified by some ISPs. Check with your
ISP and fill them in if required.
Host Name - Fill this in if required by your ISP.
MAC Address - Fill this in if required by your ISP.
WARNING: A wrong MAC address may lead to a network disorder.
47
Virtual Server
3. Utilities
To make services, like WWW, FTP, provided by a server in your local
network accessible for outside users, you should specify a local IP address
to the server. Then, add the IP address and network protocol type, port
number, and name of the service in the following list. Based on the list, the
gateway will forward service request from outside users to the corresponding
local server.
48
List of Servers
Enter the IP address of the servers under the SpaceLink Home Gateway.
Select a protocol, port number, and enter any description you want for the
service name.
Removing an Entry
To remove one of the 8 entries, select the “Item” (1 2 3 4 5 6 7 8) number
and click the Remove button.
3. Utilities
Adding an Entry
Besides entering the data manually, you can also select from a commonly
used entries. To add an often used service to one of the 8 entries, select the
service {7 (ECHO) 21 (FTP) 23 (TELNET) 25 (SMTP) 53 (DNS) 79
(FINGER) 80 (HTTP) 110 (POP3) 161 (SNMP) 162 (SNMP TRAP)} and
select the “Item” (12 3 4 5 6 7 8). Click the Add button to replace the entry
that you have selected.
49
Special Application
3. Utilities
Enable or disable specific application traffic to pass through the home
gateway despite any firewall settings in the SpaceLink Home Gateway.
Application Status - These commonly used applications are normally
allowed to pass through the firewall. Choose Disable if you do not want
users to use the following applications:
ICQ, MSN, FTP, TELNET, MIRC, REALPLAYER, QUICKTIME,
NETMEETING.
50
3. Utilities
Firewall Bypass Zone
The medium or high security level may hinder some normal traffic from
passing through the firewall. A local machine with an IP address in the
following list will be only protected by the low security level despite of the
firewall settings.
Firewall Bypass IP Address - Enter the IP address of the computer you
wish to have access through the firewall.
51
PPTP Server
3. Utilities
The Point-to-Point Tunneling Protocol (PPTP) is used to encrypt network data
traffic. For remote users who want to access the local network through the
Internet, it secures your data against eavesdroppers. For local wireless users, it
provides an extra protection other than WEP. The home gateway supports up
to 8 concurrent PPTP connections. To establish a connection with the home
gateway, a user should use a valid account in the following list.
Account
Account ID - Enter name or ID number.
Password - Enter password.
Account List - Click the Add button to move the Account ID and Password
entries into this list.
52
Firmware Upgrade
3. Utilities
This page reports the Flash Code (Firmware) version installed in the
SpaceLink Home Gateway. Periodically, a new Flash Code is available for
the SpaceLink Home Gateways on ASUS’s Web site. You can update the
SpaceLink Home Gateway’s Flash Code using the Firmware Upgrade page
under the Advanced Setup menu of the Web Manager. If you are
experiencing a problem with your SpaceLink equipment, a Technical
Support representative may ask you to report the device’s Flash Code
(Firmware) version.
The firmware upgrade takes approximately 60 to 90 seconds. When the
firmware upgrade is completed, you will be directed to the home page.
53
Restoring Factory Default Settings
Web Manager
You can reset all settings to their factory defaults through the web manager
using the “Factory Default” page in “Advanced Setup”. Click the Restore
button and wait about 30 seconds before trying to access the SpaceLink
Home Gateway.
Hardware
You can reset all settings to their factory defaults manually by pushing the
“Restore” button in a hole on the back of the SpaceLink Home Gateway
while it is ON. Use a pen or straightened paper clip to hold the “Restore”
button depressed over 5 seconds until all the LEDs on the front of the
SpaceLink Home Gateway start blinking. Release the button and the
SpaceLink Home Gateway will reboot.
3. Utilities
You will be notified
when
factory
default settings
are restored while
using the web
manager.
54
Firmware Restoration
This utility will automatically search out failed SpaceLink Home Gateways
and upload a firmware that you specify. The process takes about 3 to 4
minutes and during this process the PWR, AIR, and WAN LEDs will remain
lit while the LAN LED will flash slowly.
3. Utilities
The Firmware Restoration utility is an emergency rescue tool to restore a
SpaceLink Home Gateway which has failed during a previous firmware
upload. A failed firmware upgrade will cause the SpaceLink Home Gateway
to enter a failure mode, waiting for the user to use the Firmware Restoration
utility to find and upload a new firmware. This is not a firmware upgrade
utility and cannot be used on a working SpaceLink Home Gateway. Normal
firmware upgrades must be done through the web manager.
Using a Hub
If you have problems upload a firmware while using a network hub, try
connecting your computer directly to the LAN port. Either 10Base-T or
100Base-TX connections will work.
55
Printer Setup Wizard
This utility helps you setup your computers to utilize the printer server
function of the SpaceLink Home Gateway.
Add Printer Wizard
You should add your printer to your computer to simplify the SpaceLink Home
Gateway Printer Setup Wizard. If you run the “Printer Setup Wizard” without
your printer driver installed, it will direct you to the “Add Printer Wizard”.
3. Utilities
(1) Run the “Add Printer Wizard” from Start (2) Choose “Install by the Add Printer
| Printers and Faxes | Add Printer.
Wizard”.
(3) Choose “Local printer attached to this (4) Choose “Remote Port (Printer Sharing
computer”.
Port)”. If this is not available, select LPT1.
56
3. Utilities
(5) Find your manufacturer and model. (6) Click Next to set this as your default
Click Have Disk if you cannot find it in
printer.
the list and use the driver provided with
your printer.
(7) You can print a test page.
(8) Click Finish to close the wizard.
Your printer will show in the “Printers and
Faxes” window and the check mark shows
that it is set as your default printer.
57
Printer Setup Wizard
The wizard will explore all available SpaceLink Home Gateways and model
information of the printers attached to them in your local network.
3. Utilities
(1) If you already have your printer installed
on your printer port (LPT1), it will make
this setup process much easier. See
next page for instructions. Run the
Printer Setup Wizard from the Windows
Start menu.
(2) If the printer is found, the name of the
printer will be shown on this screen.
Note: If there is an
error communicating
with the printer, you
will get this message.
Make sure that the printer is ON, ready, and
connected. Click Back and Next.
(3) This setup wizard will change your
default printer to use “Remote Port”
which is serviced by the SpaceLink
Home Gateway.
(4) Click Done when setup is complete.
58
After setting up the printer, a printer icon
will appear in Windows’ “Printers and
Faxes”. Right click the printer icon and
choose Properties to configure the printer.
3. Utilities
Verifying Your Printer
If your printer was previously setup, the
SpaceLink Home Gateway printer setup
wizard will change your printing port from
your local LPT1 (parallel) port to “Remote
Port”. If necessary, you can change this
back at anytime or use Windows “Add
Printer” to setup another printer on
whatever port you require.
When properly setup, the SpaceLink Home
Gateway will show the printer name in the
“Homegateway Discovery” utility and show
“on-line” under the “Printer Server” on the
“Status” page of the web manager.
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VPN Client
A virtual private network (VPN) is the extension of a private network that
encompasses links across shared or public networks like the Internet. A
VPN enables you to send data between two computers across a shared or
public intranet in a manner that emulates the properties of a point-to-point
private link. The VPN Client utility help you to create and configure the
VPN connections.
Starting VPN Client
Click the Windows Start button, point to Programs, point to ASUS Wireless
Homegateway Utilities, and then click VPN Client.
3. Utilities
Main Window
The main windows shows all the available VPN connections on your system.
Click Make New Connection to open the VPN Connection Wizard. Follow
the instructions on the next page to create a new VPN connection. When
you finish, the VPN connection name will appear in the list box.
60
VPN Connection Wizard
3. Utilities
The VPN Connection Wizard helps you create a new virtual private network
(VPN) connection. On the main window, double-click Make New
Connection from the connections list box, then the VPN Connection Wizard
dialog box appears. Follow the on-screen instructions to specify settings
for your connection.
Enter a unique name for this new Enter the host name or IP address of the
connection entry. The name is used to remote VPN server to which you wish to
identify this connection. This name is not connect, and then click Next.
case-sensitive. Click Next.
Enter the user name/password for this If you want to connect now, check Connect
connection, and then click Next.
Now and then click Finish.
After the VPN Connection Wizard dialog
box closes, your new connection entry
appears in the ASUS VPN Client's main
window. Select a connection name and
click Edit to view the properties.
61
Connection Properties
Select a connection name in the VPN Client window and click Edit.
Connection Name
Types the name you want to use for
this connection entry in the Name
field. The name is used to identify
this connection. This name is not
case-sensitive.
3. Utilities
Properties
Opens the standard DUN properties
dialog for the currently selected
connection. Let user to change or set
parameters for a connection entry.
When you finished setting parameters, click OK to close Properties dialog
box and save your changes. To discard your changes, click Cancel to close
Properties dialog box without saving your changes.
Dialing Options
User Name: Provides a space for you to type your user name for this
connection.
Password: Provides a space for you to type your password for this
connection. The password will be shown as asterisks for security.
Prompt for name and password before dialing: Specifies whether to
request identity authentication information before attempting to connect. This
information can include a user name and password. If this option is checked
then a dialog box will be displayed before the connection is dialed, prompting
for the user name and password. If you have already entered the user name
and/or password in the edit boxes described above, then you should uncheck
this box. If you want to leave the password blank on this properties page and
enter your password every time you use this connection, then you should check
this box.
Auto connect to this connection when opened: When this feature is
enabled, it will automatically start connecting to this VPN connection when
the VPN client utility opens.
62
Advanced Properties
Host name or IP address of
destination
Enter the host name or IP address of
the remote VPN server to which you
are connecting, and then click Next.
Dial another connection first
3. Utilities
Check this checkbox if you want the
VPN connection to first make a call to
an ISP. You must then select a dial-up
connection from the drop-down list box.
Dialing a Connection
To dial a VPN connection, select a connection name from the connections
list box and click the Connect button. The Connect... window will show. If
you only see the “Hang Up” button on the main window, that means you
are already connected to the selected VPN connection. Click Hang Up to
disconnect from the currently connected remote server.
Buttons
Connect - Connect to remote server.
Hang Up - Disconnect from remote
server.
Edit - Displays the standard Dial-Up
Networking properties dialog for the
currently selected connection entry.
Delete - Deletes the selected connection entry.
Exit (or press Esc) - Closes VPN Client utility.
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Chapter 4 - Wireless Performance
4. Wireless Performance
This section provides the user with ideas for how to improve the performance
of a SpaceLink 802.11b network.
Site Topography
For optimal performance, locate wireless mobile clients and the SpaceLink
Home Gateways away from transformers, heavy-duty motors, fluorescent
lights, microwave ovens, refrigerators, and other industrial equipment.
Signal loss can occur when metal, concrete, walls or floors block
transmission. Locate the SpaceLink Home Gateways in open areas or add
the SpaceLink Home Gateways as needed to improve coverage.
Microwave ovens operate in the same frequency band as the SpaceLink
Home Gateway. Therefore, if you use a microwave within range of the
SpaceLink Home Gateway you may notice network performance
degradation. However, both your microwave and your the SpaceLink Home
Gateway will continue to function.
Site Surveys
4. Performance
A site survey (utility provided with the SpaceLink PC card and CF card)
analyzes the installation environment and provides users with
recommendations for equipment and its placement. The optimum placement
of 11 Mbps Home Gateways differs for 1 or 2 Mbps Home Gateways,
because the locations and number of Home Gateways required are different.
64
Chapter 4 - Wireless Performance
Range
Every environment is unique with different obstacles, barriers, materials,
etc. and, therefore, it is difficult to determine the exact range that will be
achieved without testing. However, has developed some guidelines to
estimate the range that users will see when the product is installed in their
facility, but there are no hard and fast specifications.
Radio signals may reflect off of some obstacles or be absorbed by others
depending on their construction. For example, with two 802.11b radios,
you may achieve up to 1000' in open space outdoors where two devices
have a line of sight, meaning they see each other with no obstacles. However,
the same two units may only achieve up to 300' of range when used indoors.
The IEEE 802.11b specification supports four data rates: 11 Mbps, 5.5 Mbps,
2 Mbps, and 1 Mbps. Operation at 1 Mbps provides greater range than
operation at 11 Mbps. The SpaceLink Home Gateway will automatically
adjust the data rate to maintain a usable radio connection.
4. Performance
Therefore, a client that is close to the SpaceLink Home Gateway may operate
at 11 Mbps while a client that is on the fringe of coverage may operate at 1
Mbps. As mentioned earlier, you can configure the data rates that the
SpaceLink Home Gateway will use. Note that if you limit the range of data
rates available to the SpaceLink Home Gateway, you may reduce the
effective wireless range of the SpaceLink 802.11b products.
65
Chapter 5 -Troubleshooting
5. Troubleshooting
The SpaceLink Home Gateway is designed to be very easy to install and
operate. However, if you experience difficulties, use the information in this
chapter to help diagnose and solve problems. If you cannot resolve a problem,
contact Technical Support, as listed on the front of this manual.
Common Problems and Solutions
Problem
SpaceLink Home Gateway does not power up:
Solution
• Check for faulty the SpaceLink Home Gateway power supply by
measuring the output voltage with an electrical test meter.
• Check failed AC supply (power outlet)
Problem
Cannot communicate with the SpaceLink Home Gateway through a wired
network connection.
5. Troubleshooting
Solution
• Verify network configuration by ensuring that there are no duplicate IP
addresses. Power down the device in question and ping the assigned IP
address of the device. Ensure no other device responds to that address.
• Check that the cables used have proper pin outs and connectors or use
another LAN cable.
• Check that the hub, switch, computer, or modem connected to the WAN
port of the SpaceLink Home Gateway supports 10Mbps speed.
This is the LED result if you connect the SpaceLink Home Gateway to a(n):
Auto 10/100 Mbps Hub
Hub LED
ON
Home Gateway WAN LED
ON
Pure 100 Mbps Hub
OFF
OFF
So you will not know if the connection is bad from the SpaceLink Home
Gateway Link LED alone, you will have to look at the Hub LED if you are
not sure what kind of hub the SpaceLink Home Gateway is attached to.
66
Problem
The SpaceLink Home Gateway Web Manager still cannot find or connect to
the SpaceLink Home Gateway after verifying the IP address and LAN cable,
changes cannot be made, or password is lost.
Solution
In case the SpaceLink Home Gateway is inaccessible, you can
restore the SpaceLink Home Gateway’s factory default settings.
Use a straightened paper clip to press the button located in the
hole labeled “Reset” on the back of the SpaceLink Home Gateway
and keep it depressed over 5 seconds. The LEDs will flash when
reset is successful.
Reset to Defaults
The following are factory default values. These values will be present when you
first receive your the SpaceLink Home Gateway, if you push the reset button on
the back of the SpaceLink Home Gateway over 5 seconds, or if you click the
“Restore” button on the “Factory Default” page under “Advanced Setup”.
Default Value
admin
admin
Yes
192.168.123.1
255.255.255.0
(blank)
192.168.123.1
default
home
5. Troubleshooting
Name
User Name
Password
Enable DHCP
IP Address
Subnet Mask
DNS Server 1
DNS Server 2
SSID
Domain Name
67
Problem
My 802.11b PC Card will not associate with the SpaceLink Home Gateway.
Solution
Follow these steps:
1. Try to bring the devices closer together; the PC Card may be out of
range of the SpaceLink Home Gateway.
2. Confirm that the SpaceLink Home Gateway and PC Card have the same
SSID.
3. Confirm that the SpaceLink Home Gateway and PC Card have the same
Encryption settings, if enabled.
4. Confirm that the SpaceLink Home Gateway’s Air and Link LEDs are
solid green.
5. Confirm that the authorization table includes or exclucdes the MAC
address of the SpaceLink PC card if “Wireless Access Control” is
enabled.
Problem
The throughput seems slow.
Solution
To achieve maximum throughput, verify that your antennas are well-placed,
not behind metal, and do not have too many obstacles between them. If
you move the client closer to the SpaceLink Home Gateway and throughput
increases, you may want to consider adding a second the SpaceLink Home
Gateway and implementing roaming.
5. Troubleshooting
•
•
•
•
68
Check antenna, connectors and cabling.
Verify network traffic does not exceed 37% of bandwidth.
Check to see that the wired network does not exceed 10 broadcast
messages per second.
Verify wired network topology and configuration.
Problem
I cannot find the SpaceLink Home Gateways using the SpaceLink Home Gateway
Discovery.
Solution
To configure the SpaceLink Home Gateway through a wireless LAN card,
your computer must be in the same subnet of the SpaceLink Home Gateway.
You cannot find the SpaceLink Home Gateways with subnet different from
your computer within the same gateway. You must change your computer
to the same subnet as the SpaceLink Home Gateway. The factory default
subnet of the SpaceLink Home Gateway is "192.168.123.1".
In Windows NT/2000/XP, you must login with Administrator privileges so that all functions of the SpaceLink Home Gateway Manager can function correctly. If you do not login as a member of the
Administrator group, you cannot change IP settings but can still
run the Discovery utility if the original IP setting is correct.
Problem
How do I upgrade the firmware on the SpaceLink Home Gateway?
5. Troubleshooting
Solution
Periodically, a new Flash Code is available for the SpaceLink Home
Gateways on the ftp site at ftp://ftp.asus.com. Ideally, you should update
the SpaceLink Home Gateway’s Flash Code using “Firmware Upgrade”
on the “Advanced Setup” menu of the web manager.
69
Appendix
6. Appendix
Operating frequency range
The DSSS PHY shall operate in the frequency range of 2.4 GHz to 2.4835
GHz as allocated by regulatory bodies in the USA and Europe or in the 2.471
GHz to 2.497 GHz frequency band as allocated by regulatory authority in Japan.
Number of operating channels
The channel center frequencies and CH ID numbers shall be as shown below.
The FCC (US), IC (Canada), and ETSI (Europe) specify operation from 2.4
GHz to 2.4835 GHz. For Japan, operation is specified as 2.471 GHz to 2.497
GHz. France allows operation from 2.4465 GHz to 2.4835 GHz, and Spain
allows operation from 2.445 GHz to 2.475 GHz. For each supported regulatory
domain, all channels marked with “Yes” shall be supported.
In a multiple cell network topology, overlapping and/or adjacent cells using
different channels can operate simultaneously without interference if the
distance between the center frequencies is at least 30 MHz. Channel 14
shall be designated specifically for operation in Japan.
DSSS PHY frequency channel plan
(Regulatory Domains)
CH ID Frequency
Appendix
1
2
3
4
5
6
7
8
9
10
11
12
13
14
70
2412 MHz
2417 MHz
2422 MHz
2427 MHz
2432 MHz
2437 MHz
2442 MHz
2447 MHz
2452 MHz
2457 MHz
2462 MHz
2467 MHz
2472 MHz
2484 MHz
X’10'
FCC
X’20'
IC
X’30'
ETSI
X’31'
Spain
X’32'
France
X’40'
MKK
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
-
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
-
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
-
Yes
Yes
-
Yes
Yes
Yes
Yes
-
Yes
Yes
Yes
Yes
Yes
YesYes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Appendix
SpaceLink Home Gateway Specifications
The following technical specification is for reference purposes only. Actual
product’s performance and compliance with local telecommunications
regulations may vary from country to country. ASUS will only ship products
that are type approved in the destination country.
WAN Ethernet Port
LAN Ethernet Port
Wireless
Support:
Both Ethernet and 802.3 with Max. Bit Rate 10 Mbps
Auto crossover function (MDI-X)
Connector: RJ45 for 10Base-T
Support:
Both Ethernet and 802.3 with Max. Bit Rate 100Mbps
Connector:
Four Port Switch with Auto crossover function (MDI-X)
Four RJ45 for 10Base-T or 100Base-TX
Freq. Band: 2400-2497 MHz
Antenna:
Modulation:
Data rate:
Output Power:
Printer port
2 Diversity Antennas
Direct Sequence Spread Spectrum (CCK, DQPSK, DBPSK)
1, 2, 5.5, 11 Mbps
15 dBm
Support: Standard Print Port (SPP)
Connector: 25 PIN D-SUB FEMALE
DC Power Adapter
AC Input: 100V~240V(50~60HZ)
DC Output: 5V with max. 2A current
Visible LEDs
PWR (Power), AIR, WAN, LAN,
LPT, 10/100 indication for LAN Ports
Reset button
Environment
Push for 5 seconds to restore factory setting
Operating Temp.: 0 to 50 o C with 1 meter/sec airflow
Storage Temp.: -20 to 70 o C
Operating Humidity: 0 to 95% (Non-condensing)
Storage Humidity: 0 to 95%
EMI: FCC Part 15 Class B; VCCI Class B;
Appendix
Regulation Certification
ETSI 300 328; CISPR 22 Class B , CE Mark,
FCC Part 68, UL1950, CSA22.2, EN60950
MTBF
More than 10,000 hrs/failure
71
Appendix
Glossary
Access Point - An access point is a device that allows wireless clients to
connect to other wireless clients and it acts as a bridge between wireless
clients and a wired Ethernet network.
Broadband - A type of data transmission in which a single medium (such
as cable) carries several channels of data at once.
Channel - Wireless access points allows you to choose different radio
channels in the wireless spectrum. A wireless LAN device operates within
the 2.4 GHz spectrum and a channel is within a FCC specified range, similar
to any radio channel.
Client - A client is the desktop or mobile PC that is connected to your
network.
Device name - Also known as DHCP client ID or network name. Sometimes
provided by an ISP when using DHCP to assign addresses.
DHCP (Dynamic Host Configuration Protocol) - This protocol allows a
computer (or many computers on your network) to be automatically assigned
a single IP address from a DHCP server.
DNS Server Address (Domain Name System) - DNS allows Internet host
computers to have a domain name and one or more IP addresses. A DNS
server keeps a database of host computers and their respective domain names
and IP addresses, so that when a user enters a domain name into the Internet
browser, the user is sent to the proper IP address. The DNS server address
used by the computers on your home network is the location of the DNS
server your ISP has assigned.
DSL Modem (Digital Subscriber Line) - A DSL modem uses your existing
phone lines to transmit data at high speeds.
Encryption - This provides wireless data transmissions with a level of
security.
ESSID (Extended Service Set Identifier) - You must have the same ESSID
entered into the gateway and each of its wireless clients. The ESSID is a
unique identifier for your wireless network.
Appendix
Ethernet - Ethernet networks are connected by cables and hubs, and move
data around. This is a standard for computer networks.
72
Appendix
Firewall - A firewall determines which information passes in and out of a
network. NAT can create a natural firewall by hiding a local network’s IP
addresses from the Internet. A Firewall prevents anyone outside of your
network from accessing your computer and possibly damaging or viewing
your files.
Gateway - A network point that manages all the data traffic of your network,
as well as to the Internet and connects one network to another.
IEEE - The Institute of Electrical and Electronics Engineers. The IEEE
sets standards for networking, including Ethernet LANs. IEEE standards
ensure interoperability between systems of the same type.
IP Address (Internet Protocol) - An IP address consists of a series of four
numbers separated by periods, that identifies a unique Internet computer
host, allowing messages intended for that computer to be delivered to the
correct destination.
ISP (Internet Service Provider) - An ISP is a business that allows
individuals or businesses to connect to the Internet. Users log on to the
Internet using an account with an ISP or Internet Service Provider. ISPs
can serve IP addresses dynamically, or assign static (fixed) IP addresses to
individual computers.
ISP Gateway Address - The ISP Gateway Address is an IP address for the
Internet router. This address is only required when using a cable or DSL
modem.
LAN (Local Area Network) - A LAN is a group of computers and devices
connected together in a relatively small area (such as a house or an office).
Your home network is considered a LAN.
MAC Address (Media Access Control) - A MAC address is the hardware
address of a device connected to a network.
Appendix
NAT (Network Address Translation) - NAT masks a local network’s group
of IP addresses from the external network, allowing a local network of
computers to share a single ISP account. This process allows all of the
computers on your home network to use one IP address. This will enable
access to the Internet from any computer on your home network without
having to purchase more IP addresses from your ISP.
PC Card - This is an Ethernet card that connects to the PCMCIA slot on
your Notebook PC. This enables the computer to communicate with wireless
access points.
73
Appendix
PPP (Point-to-Point Protocol) - PPP is a protocol for communication
between computers using a serial interface, typically a personal computer
connected by phone line to a server.
PPPoE (Point-to-Point Protocol over Ethernet) - Point-to-Point Protocol
is a method of secure data transmission. PPP using Ethernet to connect to
an ISP.
Subnet Mask - A subnet mask is a set of four numbers configured like an
IP address. It is used to create IP address numbers used only within a
particular network.
TCP/IP (Transmission Control Protocol/Internet Protocol) - This is the
standard protocol for data transmission over the Internet. Protocols used to
connect hosts on the Internet.
WAN (Wide Area Network) - A system of LANs, connected together. A
network that connects computers located in separate areas, (i.e., different
buildings, cities, countries). The Internet is a wide area network.
WECA (Wireless Ethernet Compatibility Alliance) - An industry group
that certifies cross-vender interoperability and compatibility of IEEE
802.11b wireless networking products and to promote that standard for
enterprise, small business, and home environments.
WLAN (Wireless Local Area Network) - This is a group of computers
and other devices connected wirelessly in a small area. A wireless network
is referred to as LAN or WLAN.
Appendix
74
R&TTE Standards List
R&TTE List of Standard
With referring to the article of the directive of R&TTE 1999/5/EC, the following equipment:
Manufacturer
Brand
Type
Wireless Router
ASUS
WL-500b
has been tested to and conforms with the following List of R&TTE Harmonized standards:
Standard
ETSI EN 300 328-2
ETSI RF Specification
Issue date
V1.2.1 Dec. 2001
Electromagnetic compatibility and Radio spectrum Matters (ERM); Wideband
Transmission systems; Data transmission equipment operating in the 2,4GHz
ISM band and using spread spectrum modulation techniques; Part 2:
Harmonized EN covering essential requirements under article 3.2 of the
R&TTE Directive.
Meets R&TTE directive art. 3.2.a on effective use of radio frequency
spectrum so as to avoid harmful interference.
ETSI EN 301 489-17
V1.2.1 Aug. 2002
ETSI EMC Specification Electromagnetic com patibility and Radio spectrum Matters(ERM);
ElectroMagnetic Compatibility (EMC) standard for radio equipment and
services; Part 17 : Specific conditions for Wideband data and HIPERLAN
equipment.
Meets R&TTE directive art. 3.1.b of essential requirements on protection with
respect to Electro Magnetic Compatibility.
As such standards referred to tin Article 5 of the directive have not been applied or do not exist, the
following Adopted solutions with descriptions and explanations as listed below, have been applied
in full or in part, to meet the essential requirements of the directive:
Standard
EN 60950
LVD specification
Issue date
2000
Safety of information technology equipment, including electrical business
equipment.
Meets R&TTE directive art. 3.1.a of essential requirements on protection of
the health and safety of the user.
ETSI EN 301 489-1
V1.4.1 Aug. 2002
ETSI EMC Specification Electromagnetic compatibility and Radio spectrum Matters(ERM);
ElectroMagnetic Compatibility (EMC) standard for radio equipment and
services; Part 1: Common technical requirements.
Meets R&TTE directive art. 3.1.b of essential requirements on protection with
respect to Electro Magnetic Compatibility.
Draw up in
Data
Taiwan, R.O.C.
2003/5/22
Taiwan 112
RF-EMC-LVD Test Reports and
Corresponding Annexes
Test Report ------------------------------------------------------------------------------- 1/32
Report No.
A54ET647
Specifications
ETSI EN 300 328-1 (V.1.3.1) / December, 2001
ETSI EN 300 328-2 (V.1.2.1) / December, 2001
Applicant
Applicant
address
4Fl., No. 150, Li-Te Rd., Peitou, Taipei, Taiwan, R.O.C.
Items tested
Model No.
Wireless Router
WL-500b (Sample # A54647)
Results
Compliance (As detailed within this report)
Date
04/04/2003 (month / day / year) (Sample received)
04/28/2003 (month / day / year) (Test)
Prepared by
Project Engineer
______________________ (Jack Tsai)
Authorized by
Issue date
May 16, 2003
General Manager
(Frank Tsai)
(month / day / year)
Modifications
Tested by
None
Training Research Co., Ltd.
Office at
No. 255, Nan Yang Street, Shijr City, Taipei Hsien 221, Taiwan
Laboratory at
1F, No. 255, Nan Yang Street, Shijr City, Taipei Hsien 221, Taiwan
Open site at
No. 15, Lane 530, Balian Rd., Sec. 1, Shijr City, Taipei Hsien 221, Taiwan
Conditions of issue:
This test report shall not be reproduced except in full, without written
approval of TRC. And the test result contained within this report only relate to
the sample submitted for testing.
ϪʳAut. No. ELA 131
Report No.: A54ET647 (ETSI EN300328)
Training Research Co., Ltd., TEL:886-2-26935155, Fax:886-2-26934440
Test Report ------------------------------------------------------------------------------- 2/32
We here by verify that:
The test data, data evaluation, test procedures and equipment configurations shown in this report
were made mainly in accordance with the procedures given in ETSI EN 300328-2 (V.1.2.1) as a
reference. All test were conducted by Training Research Co., Ltd., 255 Nanyang Street, Shijr, Taipei
Hsien 221, Taiwan, R.O.C. Also, we attest to the accuracy of each.
We further submit that the energy emitted by the sample EUT tested as described in the report is
in compliance with the technical requirements set second edition in the European Telecommunication
Standard ETSI EN 300328-2 (V.1.2.1).
Reservation:
The test results herein refer only to the tested sample. Training Research Co., Ltd. is not
responsible for any generalizations or conclusions draw from these test results and concerning further
samples. Any modification of the tested samples is prohibited and leads to the invalidity of this test report.
Test by :
TEL: 886-2-26935155
FAX: 886-2-26934440
No. 255, Nanyang Street, Shijr, Taipei Hsien 221, Taiwan, R.O.C.
Test Report ------------------------------------------------------------------------------- 3/32
Tables of Contents
I.
GENERAL ..........................................................................................4
1.1. INTRODUCTION ..........................................................................................................4
1.2. DESCRIPTION OF EUT.................................................................................................4
1.3. DESCRIPTION OF SUPPORT EQUIPMENT ......................................................................5
1.4. TEST METHOD ...........................................................................................................5
1.5. CONFIGURATION OF SYSTEM UNDER TEST .................................................................6
1.6. VERIFY THE FREQUENCY AND CHANNEL.....................................................................7
1.7. TEST PROCEDURE.......................................................................................................8
1.8. LOCATION OF THE TEST SITE......................................................................................8
1.9. GENERAL TEST CONDITION ........................................................................................8
II.
SECTION 5.2.1: EFFECTIVE RADIATED POWER....................10
III.
SECTION 5.2.2: PEAK POWER DENSITY...................................11
IV.
SECTION 5.2.3 : FREQUENCY RANGE.......................................15
V.
SECTION 5.2.4: TRANSMITTER SPURIOUS EMISSIONS
(RADIATED)......................................................................................17
VI.
SECTION 5.3.2: RECEIVER SPURIOUS EMISSIONS
(RADIATED)......................................................................................25
VII. INSTRUMENT AND ANCILLARIES EQUIPMENT OF LIST ....31
Appendix A: Antenna Spec. ......................................................................32
Test Report ------------------------------------------------------------------------------- 4/32
I. GENERAL
1.1. Introduction
The following measurement report is submitted on behalf of Applicant in support of a wireless
LAN measurement in accordance with ETSI EN 300328-2 (V.1.2.1) (Dec. 2001) of the European
Telecommunication Standard.
1.2. Description of EUT
Product Name
:
Wireless Router
Model No.
:
WL-500b
Frequency Range
:
2.412 GHz ~ 2.472GHz
Support Channel
:
13 Channel
Modulation Skill
:
DBPSK, DQPSK, CCK
Power Type
:
Switching Power Adaptor
Mfg.: DVE
M/N: DSA-0101F-05 A
I/P: 100-240Vac, 50-60Hz; 0.3A, 15VA
O/P: 5Vdc, 2.0A, 10W
Power Cable
:
185cm long, non-shielded, with ferrite core
Data Cable
:
RJ45 cable x 4: 1.2m, non-shielded, no ferrite core
RJ45 cable x 1: 30m, non-shielded, no ferrite core
USB cable x 1: 271cm, shielded, no ferrite core
Parallel data cable x 1: 170cm, shielded, no ferrite core
Test Report ------------------------------------------------------------------------------- 5/32
1.3. Description of Support Equipment
In order to construct the minimum testing, following equipment were used as the support units.
Notebook
:
ASUSTek Computer
Model No.
:
AB00F
Serial No.
:
24NP016361
FCC ID
:
DoC Approved
BSMI
:
41016012
Power type
:
100 ~ 240VAC, 1A 50/60 Hz, Switching
Adaptor of PC :
LITE-ON Electronics, Inc.
Model No.
:
PA-1530-01
Serial No.
:
00151184
FCC ID
:
Doc Approved
ᛀ጖
:
3882B259
Power cable
:
Non-shielded, 1.72m length, Plastic hood, No ferrite core
(Between power adaptor and AC power source)
Power cable
:
Shielded, 1.48m length, Plastic hood, with ferrite core
(Between power adaptor and notebook)
WLAN Card
:
Gemtek Technology Co., Ltd.
Model No.
:
C911003
FCC ID
:
MXF-C911003
1.4. Test Method
1. Using the LAN port of far-end computer and software provided by the manufacturer to
control the EUT. The test is performed under those specific conditions.
2. Set different channel being tested and making EUT to the mode of continuous
transmission or received.
Test Report ------------------------------------------------------------------------------- 6/32
1.5. Configuration of System Under Test
Turntable
AC source
Adaptor
EUT
Far-end
Notebook
The tests below are carried with the EUT transmitter set at high power in TDD mo de. The EUT is forced
to select of output power level and channel number by notebook computer.
The setting up procedure was recorded in 1.4 test method.
Test Report ------------------------------------------------------------------------------- 7/32
1.6. Verify the Frequency and Channel
Channel
Frequency (GHz)
1
2.412
2
2.417
3
2.422
4
2.427
5
2.432
6
2.437
7
2.442
8
2.447
9
2.452
10
2.457
11
2.462
12
2.467
13
2.472
Note:
(1) This is for sure that all frequencies are in 2.4GHz – 2.4835 GHz.
(2) After test, the EUT operating frequencies are in 2.412GHz to 2.472GHz. So all the item
as followed in testing report are need to test these three frequencies:
channel 1, channel 7, and channel 13.
(3) E.T.S.I 2.412GHz – 2.4835GHz , France 2.4465GHz – 2.4835GHz
Test Report ------------------------------------------------------------------------------- 8/32
1.7. Test Procedure
All measurements performed in this report were performed mainly according to the techniques
described in ETSI EN 300328-2 (Dec., 2001) and the pre-setup was written on 1.4 test method, the
detail setup was written on each test item.
1.8. Location of the Test Site
The radiated emissions measurements required by the rules were performed on the
three-meter, Anechoic Chamber (Registration Number: 93906) maintained by Training
Research Co., Ltd. 1F., No. 255 Nanyang Street, Shijr, Taipei Hsien 221, Taiwan, R.O.C. Complete
description and measurement data have been placed on file with the commission. The conducted
power line emissions tests and other test items were performed in a anechoic chamber also located at
No. 255 Nanyang Street, Shijr, Taipei Hsien 221, Taiwan, R.O.C. Training Research Co.,
Ltd. is listed by the FCC as a facility available to do measurement work for others on a contract
basis.
1.9. General Test Condition
The test condition shall be as follows: (See Clause 6)
The NORMAL temperature and humidity conditions for tests shall be any convenient
combination of temperature and humidity within the following ranges:
-temperature: +15к to +35к;
-relative humidity: 20% to 75%.
The normal test voltage for equipment to be connected to the main shall be the nominal mains
voltage.
For purpose of this ETS, the normal voltage shall be the declared voltage or any of the declared
voltages for which the equipment was designed.
The frequency of the test power source corresponding to the AC mains shall be between 49Hz
and 51Hz. When radio equipment is intended for operation from the usual, alternator fed lead-acid
battery power source used on vehicles, then the normal test voltage shall be 1.1 times the nominal
voltage of the battery (6V, 12V, etc.)
Test Report ------------------------------------------------------------------------------- 9/32
For operation from other power sources or types of battery (primary or secondary), the
nominal test voltage shall be as declared by the equipment manufacturer. This shall be recorded in the
test report.
For tests at EXTREME temperatures, measurements shall be made in accordance with the
procedures specified in subclause 6.4.3, at the upper and lower temperatures of the range as follows:
-
temperature: -20к to +55к;
Where the manufacturer’ s declared operating range does not include the range of -20к to
+55к, the equipment shall be tested over the following temperature ranges:
a)0к to +35кfor equipment intended for INDOOR use only, or intended for use in areas
where the temperature is controlled within this range;
b)Over the extremes of the operating temperature range(s) of the declared host equipment(s)
in case of plug-in radio devices.
The frequency range as in subclause 5.2.3 and the e.i.r.p. Limit in subclause5.2.1 shall not be
exceeded.
Tests at extreme power source voltages specified below are not required when the equipment
under test is designed for operation as part of and powered by another system or piece of equipment.
Where this is the case, the limit values of the host system or host equipment shall apply. The
appropriate limit values shall be declared by the manufacturer and recorded in the test report.
The EXTREME TEST VOLTAGE for equipment to be connected to an AC mains source
shall be the nominal mains voltage ±10%.
When radio equipment is intended for operation from the usual type of alternator fed lead-acid
battery power source used on vehicles, then extreme test voltage shall be 1.3 and 0.9 times the
nominal voltage of the battery (6V, 12V,etc.).
The lower extreme test voltage for equipment with power source using the following type of
battery, shall be:
-for the Leclanche’ or lithium type battery: 0.85 times the nominal voltage of the battery;
-for the mercury or nickel-cadmium type of battery: 0.9 times the nominal voltage of the
battery.
In both cases, the upper extreme test voltage shall be 1.15 times the nominal voltage of the
battery.
For equipment using other power sources, or capable of being operated from a variety of
power sources (primary or secondary), the extreme test voltages shall be those declared by the
manufacturer; these shall be recorded in the test report. Before measurements are made the
equipment shall have reached thermal balance in the test chamber.
Test Report ------------------------------------------------------------------------------- 10/32
II. Section 5.2.1: Effective Radiated Power
2.1
Test Result of Effective Radiated Power for 802.11b
Power level at which the measurement has been performed 19.02
dBm
TRANSMITTER PEAK POWER
TEST CONDITION
Channel 1
Channel 7
Channel 13
Tx Peak
Tx Ave.
Cable Loss
(dBm)
(dBm)
(dB)
25 {C
8.18
7.65
0 {C
9.57
8.79
35 {C
8.23
7.67
25 {C
7.93
7.39
0 {C
9.70
9.11
35 {C
8.54
7.96
25 {C
7.44
6.52
0 {C
8.98
8.00
35 {C
7.68
7.15
Limit
5.80
5.80
5.90
Tx Peak : 23dBm / -7dBW
Tx Ave. : 20dBm / -10dBW
NOTE:
(1) The E.U.T is a stand-alone radio device (see the clause 6.2.2). The powered by the adaptor. So,
the AC power is used as the extreme voltage source. (See clause 6.3.2.1)
(2) The value of table is worst case during test condition, includes different combinations of
transmitter rate antenna polarity and temperature
(3) TX PEAK: Max Peak Power, TX Ave.: Average Peak.
Actually Peak Power = Tx Peak + Cable Loss,
E.R.P. = Actually Peak Power + Antenna Gain (15.5dBm + 3.52dBi = 19.02 dBm)
(4) ETSI (2400MHz ~ 2483.5MHz), FRANCE (2446.5 MHz ~ 2483.5MHz)
Test Report ------------------------------------------------------------------------------- 11/32
III. Section 5.2.2: Peak Power Density
3.1 Test Result of Peak Power Density for 802.11b
Frequency
Rate
Ppr
CF
Ppq
Limit
Margin
(MHz)
(Mbps)
(dBm)
(dB)
(dBm)
(dBm)
(dB)
CH 1
2412
11
1.68
6.60
8.28
10.00
-1.72
CH 7
2442
11
1.76
6.60
8.36
10.00
-1.64
CH 11
2472
11
1.09
6.70
7.79
10.00
-2.21
Channel
NOTE:
(1)For equipment using FHSS modulation, the peak power density shall be limit to
–10dBW(100mW) per 100kHz E.I.R.P.
(2)For equipment using other types modulation, the peak power density shall be limit
–20dBW(10mW) per MHz E.I.R.P.
(3)Ppr: spectrum read power density (using peak search mode), CF: correct factor,
Ppq: actual peak power density in the spread spectrum band. Ppq = Ppr + CF
(4)The value of table is worst case during test condition, includes different combination s of
transmitter rate, antenna polarity and temperature
(5)The data in the above table are summarizing the following attachment spectrum analyzer hard
copy.
(6)ETSI (2400MHz ~ 2483.5MHz), FRANCE (2446.5 MHz ~ 2483.5MHz)
Test Report ------------------------------------------------------------------------------- 12/32
Channel 1
Test Report ------------------------------------------------------------------------------- 13/32
Channel 7
Test Report ------------------------------------------------------------------------------- 14/32
Channel 13
Test Report ------------------------------------------------------------------------------- 15/32
IV. Section 5.2.3 : Frequency Range
4.1 Test Result of Frequency Range for 802.11b
Transmitter Frequency Range – DSSS Equipment
FREQUENCY(MHz)
TEST CONDITION
Lowest Channel
Highest Channel
Channel 1
Channel 13
Frequency Rate (Mbps) Frequency Rate (Mbps)
0к
˅ˈк
35к
207 V
2404.40
11
2480.50
11
253 V
2404.40
11
2480.50
11
230 V
2408.20
11
2480.30
11
207 V
2404.20
11
2480.30
11
253 V
2404.20
11
2480.30
11
Measured frequencies
(lowest and highest)
FL = 2404.20 MHz
FH = 2480.50 MHz
Limit
FL > 2400MHz
FH < 2483.5MHz
Note:
(1) The E.U.T is a stand-alone radio device (see the clause 6.2.2). This is powered by the main. So,
the AC power is used as the extreme voltage source. (see clause 6.3.2.1).
(2) B: Battery, AC: AC Source, Rate: Transmitter Rate.
transmitter rate, antenna polarity and temperature.
(4) The data in the above table are summarizing the following attachment spectrum analyzer hard
copy.
(5) ETSI(2400MHz~2483.5MHz), FRANCE(2446.5 MHz~2483.5MHz)
Test Report ------------------------------------------------------------------------------- 16/32
Channel 1 (The lowest one in the frequency range)
Channel 13 (The greatest one in the frequency range)
Test Report ------------------------------------------------------------------------------- 17/32
V.
Section 5.2.4: Transmitter Spurious Emissions (Radiated)
5.1
Test Result of External antenna
Channel 1 (30MHz to 1GHz)
Frequency
A. P.
LEVEL
Limit
Margin
Rate
(MHz)
(H/V)
(dBm)
(dBm)
(dB)
(Mbps)
122.15
H
-60.82
-36.00
-24.82
11
126.39
H
-61.99
-36.00
-25.99
11
375.56
H
-63.67
-36.00
-27.67
11
499.84
H
-60.68
-36.00
-24.68
11
600.48
H
-61.82
-36.00
-25.82
11
750.83
H
-62.55
-36.00
-26.55
11
122.76
V
-59.10
-36.00
-23.10
11
125.79
V
-59.30
-36.00
-23.30
11
501.06
V
-63.83
-36.00
-27.83
11
600.48
V
-61.10
-36.00
-25.10
11
700.51
V
-63.62
-36.00
-27.62
11
750.83
V
-62.72
-36.00
-26.72
11
Note:
(1) A. P. means antenna polarization, horizontal and vertical.
Amplitude means the fundamental emission measured
C F. means Correct Factor, Rate means transmitter rate
Corrected Factor (C. F.) = Cable Loss + Antenna Factor – Amplified Gain
LEVEL = Amplitude + Corrected Factor
(2) The margin is minus that means under limit.
(3) The value of table is the worst case during test condition. This is including different
combinations of transmitter rate antenna polarity and temperature.
(4) ETSI (2400MHz~2483.5MHz), FRANCE (2446.5 MHz~2483.5MHz)
Test Report ------------------------------------------------------------------------------- 18/32
Frequency
A. P.
LEVEL
Limit
Margin
Rate
(MHz)
(H/V)
(dBm)
(dBm)
(dB)
(Mbps)
122.15
H
-61.15
-36.00
-25.15
11
125.79
H
-61.72
-36.00
-25.72
11
375.56
H
-63.11
-36.00
-27.11
11
500.45
H
-60.68
-36.00
-24.68
11
600.48
H
-61.61
-36.00
-25.61
11
750.83
H
-61.54
-36.00
-25.54
11
122.15
V
-59.76
-36.00
-23.76
11
125.79
V
-59.33
-36.00
-23.33
11
501.66
V
-63.75
-36.00
-27.75
11
600.48
V
-60.77
-36.00
-24.77
11
700.51
V
-63.48
-36.00
-27.48
11
750.83
V
-62.74
-36.00
-26.74
11
Test Report ------------------------------------------------------------------------------- 19/32
Channel 1 (1GHz to 12.75GHz)
Frequency
A. P.
LEVEL
Limit
Margin
Rate
(MHz)
(H/V)
(dBm)
(dBm)
(dB)
(Mbps)
1608.33
H
-57.61
-30.00
-27.61
11
1820.83
H
-62.64
-30.00
-32.64
11
4823.91
H
-56.47
-30.00
-26.47
11
7236.61
H
-47.14
-30.00
-17.14
11
9649.32
H
-58.93
-30.00
-28.93
11
1608.33
V
-61.78
-30.00
-31.78
11
2414.58
V
-54.38
-30.00
-24.38
11
4823.91
V
-56.97
-30.00
-26.97
11
7234.69
V
-46.15
-30.00
-26.97
11
9649.32
V
-57.60
-30.00
-27.60
11
Frequency
A. P.
LEVEL
Limit
Margin
Rate
(MHz)
(H/V)
(dBm)
(dBm)
(dB)
(Mbps)
1647.92
H
-56.09
-30.00
-26.09
11
4944.03
H
-54.87
-30.00
-24.87
11
7415.83
H
-36.53
-30.00
-6.53
11
9887.64
H
-48.53
-30.00
-18.53
11
12359.44
H
-51.16
-30.00
-21.16
11
3295.83
V
-56.43
-30.00
-26.43
11
4945.31
V
-54.37
-30.00
-24.37
11
7419.69
V
-36.37
-30.00
-6.37
11
9890.21
V
-49.55
-30.00
-19.55
11
12360.73
V
-51.00
-30.00
-21.00
11
Test Report ------------------------------------------------------------------------------- 20/32
Standby mode
Frequency
A. P.
LEVEL
Limit
Margin
Rate
(MHz)
(H/V)
(dBm)
(dBm)
(dB)
(Mbps)
122.15
H
-60.61
-57.00
-3.61
11
125.79
H
-61.67
-57.00
-4.67
11
375.56
H
-61.33
-57.00
-4.33
11
500.45
H
-61.18
-57.00
-4.18
11
600.48
H
-62.20
-57.00
-5.20
11
750.83
H
-61.96
-57.00
-4.96
11
123.36
V
-59.12
-57.00
-2.12
11
125.79
V
-59.07
-57.00
-2.07
11
501.06
V
-63.06
-57.00
-6.06
11
600.48
V
-61.43
-57.00
-4.43
11
700.51
V
-62.47
-57.00
-5.47
11
750.83
V
-62.26
-57.00
-5.26
11
Test Report ------------------------------------------------------------------------------- 21/32
5.2
Test Result of Internal antenna
Frequency
A. P.
LEVEL
Limit
Margin
Rate
(MHz)
(H/V)
(dBm)
(dBm)
(dB)
(Mbps)
111.84
H
-61.22
-36.00
-25.22
11
152.46
H
-64.27
-36.00
-28.27
11
438.01
H
-63.64
-36.00
-27.64
11
500.45
H
-61.47
-36.00
-25.47
11
624.73
H
-60.51
-36.00
-24.51
11
750.83
H
-62.57
-36.00
-26.57
11
30.61
V
-61.64
-36.00
-25.64
11
125.79
V
-58.96
-36.00
-22.96
11
156.71
V
-63.60
-36.00
-27.60
11
201.57
V
-65.49
-36.00
-29.49
11
500.45
V
-62.37
-36.00
-26.37
11
701.12
V
-63.24
-36.00
-27.24
11
Test Report ------------------------------------------------------------------------------- 22/32
Frequency
A. P.
LEVEL
Limit
Margin
Rate
(MHz)
(H/V)
(dBm)
(dBm)
(dB)
(Mbps)
109.42
H
-61.60
-36.00
-25.60
11
125.79
H
-64.61
-36.00
-28.61
11
200.96
H
-64.88
-36.00
-28.88
11
375.56
H
-63.73
-36.00
-27.73
11
500.45
H
-60.39
-36.00
-24.39
11
624.73
H
-60.56
-36.00
-24.56
11
30.61
V
-61.76
-36.00
-25.76
11
125.79
V
-58.89
-36.00
-22.89
11
200.96
V
-66.10
-36.00
-30.10
11
375.56
V
-66.25
-36.00
-30.25
11
501.66
V
-62.71
-36.00
-26.71
11
700.51
V
-63.55
-36.00
-27.55
11
Test Report ------------------------------------------------------------------------------- 23/32
Frequency
A. P.
LEVEL
Limit
Margin
Rate
(MHz)
(H/V)
(dBm)
(dBm)
(dB)
(Mbps)
4823.91
H
-44.70
-30.00
-14.70
11
7234.69
H
-47.21
-30.00
-17.21
11
9649.32
H
-49.66
-30.00
-19.66
11
4823.91
V
-46.53
-30.00
-16.53
11
7232.76
V
-48.39
-30.00
-18.39
11
9649.32
V
-46.82
-30.00
-16.82
11
Frequency
A. P.
LEVEL
Limit
Margin
Rate
(MHz)
(H/V)
(dBm)
(dBm)
(dB)
(Mbps)
4943.39
H
-49.77
-30.00
-19.77
11
7415.83
H
-54.75
-30.00
-24.75
11
9890.21
H
-46.94
-30.00
-16.94
11
4943.39
V
-52.77
-30.00
-22.77
11
7415.83
V
-50.92
-30.00
-20.92
11
9890.21
V
-47.11
-30.00
-17.11
11
Test Report ------------------------------------------------------------------------------- 24/32
Standby mode
Frequency
A. P.
LEVEL
Limit
Margin
Rate
(MHz)
(H/V)
(dBm)
(dBm)
(dB)
(Mbps)
111.84
H
-61.44
-57.00
-4.44
11
125.79
H
-64.65
-57.00
-7.65
11
375.56
H
-63.61
-57.00
-6.61
11
500.45
H
-61.12
-57.00
-4.12
11
624.73
H
-59.84
-57.00
-2.84
11
750.83
H
-62.34
-57.00
-5.34
11
31.82
V
-61.33
-57.00
-4.33
11
126.39
V
-59.03
-57.00
-2.03
11
501.66
V
-63.99
-57.00
-6.99
11
600.48
V
-65.13
-57.00
-8.13
11
700.51
V
-63.41
-57.00
-6.41
11
750.83
V
-64.02
-57.00
-7.02
11
Test Report ------------------------------------------------------------------------------- 25/32
VI. Section 5.3.2: Receiver Spurious Emissions (Radiated)
6.1
Test Result of External antenna
Frequency
A. P.
LEVEL
Limit
Margin
Rate
(MHz)
(H/V)
(dBm)
(dBm)
(dB)
(Mbps)
122.15
H
-60.96
-57.00
-3.96
11
125.79
H
-62.45
-57.00
-5.45
11
499.84
H
-63.05
-57.00
-6.05
11
600.48
H
-62.41
-57.00
-5.41
11
625.34
H
-63.09
-57.00
-6.09
11
750.83
H
-61.63
-57.00
-4.63
11
122.76
V
-59.41
-57.00
-2.41
11
126.39
V
-59.18
-57.00
-2.18
11
600.48
V
-61.47
-57.00
-4.47
11
700.51
V
-63.83
-57.00
-6.83
11
750.83
V
-61.80
-57.00
-4.80
11
998.18
V
-59.12
-57.00
-2.12
11
Note:
Amplitude means the fundamental emission measured.
Test Report ------------------------------------------------------------------------------- 26/32
Frequency
A. P.
LEVEL
Limit
Margin
Rate
(MHz)
(H/V)
(dBm)
(dBm)
(dB)
(Mbps)
122.76
H
-60.89
-57.00
-3.89
11
126.39
H
-61.67
-57.00
-4.67
11
375.56
H
-61.98
-57.00
-4.98
11
499.84
H
-62.41
-57.00
-5.41
11
750.83
H
-61.21
-57.00
-4.21
11
901.18
H
-60.27
-57.00
-3.27
11
122.76
V
-59.10
-57.00
-2.10
11
126.39
V
-59.47
-57.00
-2.47
11
501.06
V
-63.18
-57.00
-6.18
11
600.48
V
-61.57
-57.00
-4.57
11
750.83
V
-61.84
-57.00
-4.84
11
873.90
V
-61.90
-57.00
-4.90
11
Test Report ------------------------------------------------------------------------------- 27/32
Frequency
A. P.
LEVEL
Limit
Margin
Rate
(MHz)
(H/V)
(dBm)
(dBm)
(dB)
(Mbps)
1261.93
H
-67.05
-47.00
-20.05
11
1332.92
H
-65.49
-47.00
-18.49
11
1403.91
H
-65.76
-47.00
-18.76
11
1746.61
H
-64.34
-47.00
-17.34
11
9038.96
H
-58.56
-47.00
-11.56
11
1308.44
V
-65.06
-47.00
-18.06
11
1746.61
V
-65.00
-47.00
-18.00
11
1820.05
V
-57.20
-47.00
-10.20
11
8064.69
V
-59.46
-47.00
-12.46
11
11663.12
V
-58.30
-47.00
-11.30
11
Frequency
A. P.
LEVEL
Limit
Margin
Rate
(MHz)
(H/V)
(dBm)
(dBm)
(dB)
(Mbps)
1332.92
H
-64.65
-47.00
-17.65
11
1746.61
H
-64.67
-47.00
-17.67
11
1820.05
H
-56.87
-47.00
-9.87
11
3293.70
H
-65.00
-47.00
-18.00
11
8194.43
H
-59.29
-47.00
-12.29
11
1283.96
V
-63.80
-47.00
-16.80
11
1403.91
V
-64.93
-47.00
-17.93
11
1746.61
V
-64.17
-47.00
-17.17
11
1820.05
V
-54.37
-47.00
-7.37
11
5558.02
V
-62.78
-47.00
-15.78
11
Test Report ------------------------------------------------------------------------------- 28/32
6.2
Test Result of Internal antenna
Frequency
A. P.
LEVEL
Limit
Margin
Rate
(MHz)
(H/V)
(dBm)
(dBm)
(dB)
(Mbps)
112.45
H
-61.15
-57.00
-4.15
11
152.46
H
-64.45
-57.00
-7.45
11
500.45
H
-63.29
-57.00
-6.29
11
600.48
H
-61.65
-57.00
-4.65
11
624.73
H
-61.59
-57.00
-4.59
11
750.83
H
-61.72
-57.00
-4.72
11
30.61
V
-61.16
-57.00
-4.16
11
125.18
V
-59.01
-57.00
-2.01
11
142.16
V
-61.38
-57.00
-4.38
11
501.66
V
-62.91
-57.00
-5.91
11
600.48
V
-65.08
-57.00
-8.08
11
700.51
V
-64.23
-57.00
-7.23
11
Note:
Amplitude means the fundamental emission measured.
Test Report ------------------------------------------------------------------------------- 29/32
Frequency
A. P.
LEVEL
Limit
Margin
Rate
(MHz)
(H/V)
(dBm)
(dBm)
(dB)
(Mbps)
111.84
H
-61.44
-57.00
-4.44
11
125.79
H
-64.65
-57.00
-7.65
11
375.56
H
-63.61
-57.00
-6.61
11
500.45
H
-61.12
-57.00
-4.12
11
624.73
H
-59.84
-57.00
-2.84
11
750.73
H
-62.34
-57.00
-5.34
11
31.21
V
-61.51
-57.00
-4.51
11
108.21
V
-63.95
-57.00
-6.95
11
125.79
V
-59.27
-57.00
-2.27
11
501.66
V
-63.60
-57.00
-6.60
11
601.09
V
-64.94
-57.00
-7.94
11
751.44
V
-63.65
-57.00
-6.65
11
Test Report ------------------------------------------------------------------------------- 30/32
Frequency
A. P.
LEVEL
Limit
Margin
Rate
(MHz)
(H/V)
(dBm)
(dBm)
(dB)
(Mbps)
1237.45
H
-68.00
-47.00
-21.00
11
1332.92
H
-67.32
-47.00
-20.32
11
1746.61
H
-68.00
-47.00
-21.00
11
2517.71
H
-66.62
-47.00
-19.62
11
2821.25
H
-66.94
-47.00
-19.94
11
1374.53
V
-67.14
-47.00
-20.14
11
1499.37
V
-65.99
-47.00
-18.99
11
1976.72
V
-67.84
-47.00
-20.84
11
2867.76
V
-64.58
-47.00
-17.58
11
3215.36
V
-66.70
-47.00
-19.70
11
Frequency
A. P.
LEVEL
Limit
Margin
Rate
(MHz)
(H/V)
(dBm)
(dBm)
(dB)
(Mbps)
1320.68
H
-67.60
-47.00
-20.60
11
1746.61
H
-65.50
-47.00
-18.50
11
1996.30
H
-68.25
-47.00
-21.25
11
2769.84
H
-65.83
-47.00
-18.83
11
4689.01
H
-65.37
-47.00
-18.37
11
1374.53
V
-66.48
-47.00
-19.48
11
1499.37
V
-65.49
-47.00
-18.49
11
1621.77
V
-67.11
-47.00
-20.11
11
2370.83
V
-66.27
-47.00
-19.27
11
3296.15
V
-68.32
-47.00
-21.32
11
Test Report ------------------------------------------------------------------------------- 31/32
VII. Instrument and Ancillaries Equipment of List
No.
Type of
Equipment
Brand Name
Model No.
Serial No.
01
EMI Receiver
HP
8546A
3520A00242
02
RF Filter Section
HP
85460A
3448A00217
03
Auto Switch Box
TRC
ASB-01
9904-01
04
Spectrum Analyzer
HP
8564E
US36433002
05
Spectrum Analyzer
Anritsu
MS2665C
6200175476
06
Microwave Pre. Amp.
HP
83051A
3232A00347
07
Horn Antenna
EMCO
3115
9704 – 5178
08
EM Rad. Monitor
WG
EMC-20
Y-0026
09
E-Field Sensor 3GHz
WG
TYP-8
Z-0001
10
RF Power Meter
BOONTON
4532
117501
11
Signal Generator
HP
83711A
3429A00434
12
Bi-log Antenna
Schaffner
CBL6141A
4151
13
Temp.& Hum. Chamber
King Son
THS-ML1
240
14
EMC Analyzer
HP
8594EM
3710A00279
15 DC Power Supply
GW
GPC-3030D
8050381
16
AC Power Supply
Ch. Hong
CF-3000E
974302
17
Digital Multimeter
GW
GDM-8055
8080365
18
127 (CE use)
Small Bi-con. Ant.
Schwarzbeck
19
UBAA9114
128 (FCC use)
Test Report ------------------------------------------------------------------------------- 32/32
Appendix A
Antenna Specification
NInput Output
Enterprise Corp .
PRODUCT
SPECIFICATION
DOC. No: WL-TL-17
DATE: 25-MAR-02
REV.
PRODUCT NAME
2.4G ANTENNA WITH RP SMA
PART NUMBER
□ W201-108-D2
Signed By Customers
Approved By:
供應商:
垠旺精密股份有限公司
TEL:02-2917-7528;FAX:02-2912-1659
台北縣新店市寶興路 37 號 3 樓
:
C
NInput Output
Enterprise Corp .
PRODUCT
SPECIFICATION
2.4 G ANTENNA WITH RP -SMA PLUG
DOC. No: WL-TL-17
DATE: 25-MAR-02
REV.
:
C
銷仔
Brass
鍍鎳
7
帽套
6
TPR
Black
底座
ABS
Black
5
天線座
4
ABS
Black
扭
殼
Brass
鍍黑鉻
3
RP SMA
Be.Copper
鍍金30u"
2 Contacter 端子
Brass
鍍金4u"
1
RP SMA主體
ITEM DESCRIPTIONMATERIALS FINISHED
NInput Output
PRODUCT
SPECIFICATION
Enterprise Corp .
RP-SMA R/A JACK
PCB RECEPTACLE
DOC. No: WL-TL-17
DATE: 25-MAR-02
REV.
:
C
NInput Output
Enterprise Corp .
PRODUCT
SPECIFICATION
DOC. No: WL-TL-17
DATE: 25-MAR-02
DATE:
2.4 G ANTENNA WITH RP -SMA PLUG
REV.
:
C
W201-108-D2 2.4G ANTENNA
SPECIFICATION
1. Electrical Properties
1-1
Frequency Range … … … … … … … ….2.4~2.5GHz
1-2
Impedance … … … … … … … … …..…..50 Ohms nominal
1-3
V.S.W.R … … … . . … … . … … … … . … … 2.0 (Max.)
1-4
Return Loss … … … … … … … … … . … -10.0 dB(Max.)
1-5
Max. Gain … … … … … … … … … … ….3.52dBi
1-6
Polarization … … … … … … … … .
1-7
Admitted Power … … … … … … … … … 1 W
1-8
Electrical Wave … … … … … … … … … .1/4 â Dipole
Vertical
2. Mechanical Properties
2-1 Connector … … … … … … ...…Reverse SMA Plug
Cable … … … … … … … … … … … . . … R G 1 7 8
2-3 Antenna Body … … … … … … … … … T.P.R.
2-4 Operating Temperature Range.. … … -20℃ ~
+50℃
2-5 Storage Temperature Range … … … . -20℃ ~
+50℃
1 (1652x2338x16M jpeg)
2 (1652x2338x16M jpeg)
3 (1652x2338x16M jpeg)
4 (1652x2338x16M jpeg)
5 (1652x2338x16M jpeg)
6 (1652x2338x16M jpeg)
Test Report ------------------------------------------------------------------------------- 1/47
Report No.
A54ET647
Specifications
ETSI EN 301 489-1 V1.4.1 (August, 2002)
ETSI EN 301 489-17 V1.2.1 (August, 2002)
Applicant
Applicant
address
4F, No. 150, Li-Te Rd., Peitou, Taipei, Taiwan, R.O.C.
Items tested
Model No.
Wireless Router
WL-500b (Sample # A54647)
Results
Compliance (As detailed within this report)
Date
04/04/2003 (month / day / year) (Sample received)
04/30/2003 (month / day / year) (Test)
Prepared by
______________________
Authorized by
Issue date
May 16, 2003
Project Engineer
(Jack Tsai)
General Manager
(Frank Tsai)
Modifications
Tested by
None
Office at
No. 255, Nan Yang Street, Shijr City, Taipei Hsien 221, Taiwan
Laboratory at
1F, No. 255, Nan Yang Street, Shijr City, Taipei Hsien 221, Taiwan
Open site at
No. 15, Lane 530, Balian Rd., Sec. 1, Shijr City, Taipei Hsien 221, Taiwan
This test report shall not be reproduced except in full, without written approval of
TRC. And the test result contained within this report only relate to the sample submitted
for testing.
Ϫʳ Aut. No. ELA 131
Test Report ------------------------------------------------------------------------------- 2/47
Generally Statement:
The results appear in the following order:
Electromagnetic compatibility and radio spectrum matters (ERM); Electro Magnetic
Compatibility (EMC) standard for radio equipment and services;
Part 1: Common Technical requirements
Part 17:Specific conditions for Wideband data and HIPERLAN equipment.
The results exhibits below only apply to particular samples tested and to the specific tests
carried out, as detailed in this Test Report. The issue of this Test Report does not indicate any
measure of Approval, Certification, Supervision, Control or Surveillance by Training Research
Co., Ltd. of any product. No extract, abridgement or abstraction from a Test Report may be
published or used to advertise a product without the written consent of the Director, Training
Research Co., Ltd. who reserves the absolute right to agree or reject all or any of the details of any
item of publicity for which consent may be sought.
Test Report ------------------------------------------------------------------------------- 3/47
Contents
CHAPTER 0 EMISSION AND SUSCEPTIBILITY STANDARDS...........5
EMISSION STANDARDS ................................................................................. 5
SUSCEPTIBILITY STANDARDS ....................................................................... 5
CHAPTER 1 INTRODUCTION.................................................................6
DESCRIPTION OF EUT................................................................................... 6
TEST M ETHOD .............................................................................................. 6
LIST OF SUPPORT EQUIPMENT ...................................................................... 7
CHAPTER 2 EMISSION AND IMMUNITY REQUIREMENTS
OVERVIEW.......................................................................10
EMISSION (ETSI EN 301 489-1)................................................................. 10
IMMUNITY (ETSI EN 301 489-1) ............................................................... 11
CHAPTER 3 PERFORMANCE CRITERIA ...........................................12
ETSI EN 301 489-17, SUBCLAUSE 6.2 ....................................................... 12
CHAPTER 4 RADIO FREQUENCY IMMUNITY TEST (RS) ...............18
RS TEST INFORMATION: ............................................................................. 18
EN 61000-4-3 PHOTO OF TEST SET-UP................................................ 20
CHAPTER 5 ELECTRIC FAST TRANSIENT/
BURST REQUIREMENTS TEST .....................................21
EFT TEST INFORMATION:........................................................................... 21
CHAPTER 6 ELECTROSTATIC DISCHARGES IMMUNITY TEST...24
ESD TEST INFORMATION:........................................................................... 24
Test Report ------------------------------------------------------------------------------- 4/47
CHAPTER 7 SURGE IMMUNITY TEST................................................27
SURGE TEST INFORMATION: ....................................................................... 27
CHAPTER 8 CONTINUOUS WAVE VOLTAGE IMMUNITY TEST...30
CS TEST INFORMATION: ............................................................................. 30
TEST INSTRUMENTS: ................................................................................... 32
CHAPTER 9 VOLTAGE DIP / INTERRUPTION TEST........................34
DIP TEST INFORMATION:............................................................................ 34
EN 61000-4-11 PHOTO OF TEST SET-UP.............................................. 35
CHAPTER 10 HARMONICS TEST .........................................................36
CHAPTER 11 VOLTAGE FLUCTUATION AND FLICKER TEST.......37
CHAPTER 12 CONDUCTED EMISSION TEST .....................................38
TEST CONDITION AND SETUP ....................................................................... 38
LIST OF TEST INSTRUMENT ......................................................................... 38
CONDUCTED EMISSION PHOTO OF TEST SET-UP.......................... 39
TEST RESULT OF CONDUCTED EMISSIONS FOR M AINS POWER ................... 40
TEST RESULT OF CONDUCTED EMISSIONS FOR TELECOMMUNICATION PORT 44
CHAPTER 13 RADIATED EMISSION TEST..........................................45
TEST CONDITION AND SETUP ....................................................................... 45
LIST OF TEST INSTRUMENT ......................................................................... 45
TEST RESULT OF SPURIOUS RADIATED EMISSIONS
FOR EXTERNAL ANTENNA ........................................................................... 46
TEST RESULT OF SPURIOUS RADIATED EMISSIONS
FOR INTERNAL ANTENNA ............................................................................ 47
Test Report ------------------------------------------------------------------------------- 5/47
Chapter 0 Emission and Susceptibility Standards
Emission Standards
Emission Standard
European Standard
International Standard
( )
EN 61000-6-3/2001
IEC 61000-6-1/1996
( )
EN 61000-6-4/2001
IEC 61000-6-1/1997
( )
EN 50081-1/1992
( )
EN 50081-1/8.93
( )
EN 55014/4.93
CISPR 14: 1993
( )
EN 55015/12.93
CISPR 15: 1992
( )
EN 55011/91
CISPR 11: 1990
( X)
EN 55022/98
CISPR 22: 1997
( X)
EN 61000-3-2/2000
IEC 61000-3-2: 2000
(Modified)
( X)
EN 61000-3-3/1995
IEC 61000-3-3: 1994
+ A1/2001
European Standard
International Standard
( )
EN 61000-6-1/2001
IEC 61000-6-1/1997
( )
EN 61000-6-2/2001
IEC 61000-6-1/1999
( )
EN 50082-1/1997
( )
EN 50082-2/1994
( )
EN 55024/1998
CISPR 24/1997
( )
EN 55020/2002
CISPR 20/2002
(X)
EN 61000-4-2:1995
IEC 61000-4-2:1995
(X)
EN 61000-4-3:1996
IEC 61000-4-3:1995
(X)
EN 61000-4-4:1995
IEC 61000-4-4:1995
(X)
EN 61000-4-5:1995
IEC 61000-4-5:1995
(X)
EN 61000-4-6:1996
IEC 61000-4-6:1996
( )
EN 61000-4-8:1993
IEC 61000-4-8:1993
(X)
EN 61000-4-11:1994
IEC 61000-4-11:1994
EN 55014-2:1993
CISPR/F (Sec) 159
Susceptibility Standards
Susceptibility Standard
( )
Test Report ------------------------------------------------------------------------------- 6/47
Chapter 1 Introduction
Description of EUT
Product Name
:
Wireless Router
Model Name
:
WL-500b
Frequency Range
:
2.400GHz ~ 2 .4835GHz
Operating Frequency :
2.412GHz ~ 2.472GHz
Support Channel
:
13 Channel
Modulation Skill
:
DBPSK, DQPSK, CCK
Power Type
:
Switching Power Adaptor
Mfg.: DVE
M/N: DSA-0101F-05 A
I/P: 100-240Vac, 50-60Hz; 0.3A, 15VA
O/P: 5Vdc, 2.0A, 10W
Power Cable
:
185cm long, non-shielded, incorporates a ferrite core
Data Cable
:
RJ45 cable x 4: 1.2m, non-shielded, no ferrite core
RJ45 cable x 1: 30m, non-shielded, no ferrite core
USB cable x 1: 271cm, shielded, no ferrite core
Parallel data cable x 1: 170cm, shielded, no ferrite core
Test Method
1. Using the LAN port of far-end computer and software provided by the manufacturer to
control the EUT. The test is performed under those specific conditions.
2. Then making EUT to the following mode.
(a) EMI testing: making EUT to the linking, image display, and printing mode with
support equipments
(b) EMS testing: same as above
Test Report ------------------------------------------------------------------------------- 7/47
List of Support Equipment
In order to construct the minimum testing, following equipment were used as the support
units.
PC
Model No.
: HP Pavilion 500
: P8574A
Serial No.
:
TW219204335, TW219204345
FCC ID
ᛀ጖
:
:
N/A, Do C (Declaration of Confirmation) Approved
3902H097
Power type
Power cord
:
:
100 ~ 127VAC / 4A, 200 ~ 240VAC/2A, 50 ~ 60Hz, 5A, Switching
Non-shielded, 2.33 m length, Plastic hood, No ferrite core
Monitor
Model No.
Serial No.
FCC ID
ᛀ጖
:
:
:
:
:
HP 15’ Color Monitor
D2827A, D2832A
KR91161719, MY90615892
C5F7NFCMC1518X, N/A (DoC Approved)
3872B039, 4872A167
Power type
Power cord
Data cable
:
:
:
100 ~ 240 VAC / 50 ~ 60 Hz, Switching
Shielded, 1.80m long, No ferrite core
Shielded, 1.50m long, with two ferrite cores
Keyboard
Model No.
Serial No.
:
:
:
HP
5181, SK-2501K
BE21700405, M981216213
FCC ID
ᛀ጖
:
:
Doc Approved, GYUR38SK
3892C981, 3862A621
Power type
Data cable
:
:
By PC
Shielded, 1.70m length, with ferrite core
Mouse
Model No.
Serial No.
FCC ID
ᛀ጖
:
:
:
:
:
HP
M-UR89, M-S34
LZS21750238, LZC84446151
Doc Approved, DZL211029
3892D767, 4862A011
Power type
Power cord
:
:
By PC
Shielded, 1.80m length, No ferrite core
Test Report ------------------------------------------------------------------------------- 8/47
Fax/Modem
:
Aceex
Model No.
Serial No.
:
:
DM-1414
9010582
FCC ID
:
IFAXDM1414
Power type
:
110 VAC / 50 ~ 60 Hz, Switching
Power Cord
Data Cable
:
:
Non-shielded, 1.90m long, Plastic hoods, and no ferrite bead
RS-232ШShielded, 1.30m long, Metal hoods , No bead
RJ-11Cx2 ШNon-shielded, 7’ long, Plastic hoods, No bead
Printer
Model No.
Serial No.
FCC ID
ᛀ጖
:
:
:
:
:
HP
C6464A
TH16LEB5PK
N/A, DoC Approved
3892H381
Power type
Power cord
:
:
Data cable
:
Switching adaptor
Non-shielded, 173cm long, No ferrite core
(between adaptor and AC source)
Non-shielded, 180cm long, with ferrite core
(between printer and adaptor)
Shielded, 1.70m long, No ferrite core
USB
Gamepad
Model No.
Serial No.
FCC ID
ᛀ጖
:
:
:
:
:
Rockfire
QF-337uv
10600545
None (CE approval)
3862A574
Power type
Data Cable
:
:
By computer
Shielded, 1.81m long, Plastic, with ferrite core
Test Report ------------------------------------------------------------------------------- 9/47
WLAN Card
:
Gemtek Technology Co., Ltd.
Model No.
FCC ID
:
:
C911003
MXF-C911003
Notebook
:
ASUSTek Computer
Model No.
:
AB00F
Serial No.
FCC ID
:
:
24NP016370
Doc Approved
BSMI
Power type
:
:
41016012
100 ~ 240VAC, 1A 50/60 Hz, Switching
Power Adaptor
Model No.
Serial No.
FCC ID
ᛀ጖
:
:
:
:
:
LITE-ON Electronics, Inc.
PA-1530-01
00153468
Doc Approved
3882B259
Power cable
:
Power cable
:
Non-shielded, 1.72m length, Plastic hood, No ferrite core
(Between power adaptor to and AC power source)
Shielded, 1.48m length, Plastic hood, with ferrite core
(Between power adaptor and notebook)
Camera
Model No.
Serial No.
Product No.
ᛀ጖
:
:
:
:
:
Logitech
V-UJ16
LZA30600780
861095-0010
4912A026
FCC ID
Power type
:
:
N/A, DoC Approved
5V, 300mA
Test Report ------------------------------------------------------------------------------- 10/47
Chapter 2 Emission and Immunity Requirements Overview
Emission (ETSI EN 301 489-1)
Phenomenon
Application
Equipment test requirement
Radio and
Radio and
Radio and
ancillary
ancillary
ancillary
equipment for
fixed use (base
equipment for
vehicular use
equipment for
portable use
station
(mobile
(portable
equipment)
Applicable for
stand alone
testing
Radiated
emission
Enclosure of
ancillary
equipment
Conducted
emission
DC power
input/output
port
Applicable
Conducted
emission
AC mains
input/output
port
AC mains input
port
Harmonic
current
emissions
Voltage
fluctuations
and flicker
AC mains input
port
equipment)
equipment)
Applicable for Applicable for
stand alone
stand alone
testing
testing
Applicable
Reference
Subclause in
the present
document
8.2
Not applicable
8.3
Applicable
Not applicable Not applicable
8.4
Applicable
8.5
Applicable
8.6
Test Report ------------------------------------------------------------------------------- 11/47
Immunity (ETSI EN 301 489-1)
Phenomenon
Application
Equipment test requirement
Radio and
ancillary
Radio and
ancillary
Radio and
ancillary
Reference
Subclause in
the present
equipment for equipment for equipment for document
fixed use (base vehicular use portable use
station
(mobile
(portable
equipment)
equipment)
equipment)
Applicable
Applicable
Applicable
9.2
Electrostatic
Enclosure
discharge
Fast transients
Signal,
common mode telecommunication
and control ports,
DC and AC power
ports
Applicable
Applicable
Applicable
9.3
Applicable
Not
applicable
Not
applicable
9.4
RF common
Signal,
mode 0.15 MHz telecommunication
to 80MHz
and control ports,
DC and AC power
ports
Applicable
Applicable
Not
applicable
9.5
Applicable
9.6
Not
applicable
Not
applicable
Not
applicable
Not
applicable
Not
applicable
9.8
RF
electromagnetic
field ( 80MHz to
1GHz)
Enclosure
Transients and DC power input Not applicable
surges
ports
Voltage dips and AC mains power
Applicable
interruptions
input ports
Surges, line to AC mains power
line and line
input ports,
ground
telecommunication
ports
Applicable
9.7
Test Report ------------------------------------------------------------------------------- 12/47
Chapter 3 Performance Criteria
ETSI EN 301 489-17, Subclause 6.2
Table 1 Performance criteria
Criteria
During test
After test
A
Shall operate as intended
Shall operate as intended
B
C
May show degradation of
Shall be no degradation of performance
performance ( NOTE 1)
Shall be no loss of function
Shall be no unintentional
transmissions
May show loss of function (one or
more)
May show degradation of
performance (NOTE 1)
No unintentional transmissions
(NOTE 2)
Shall be no loss of function
Shall be no loss of stored data or user
programmable functions
Function shall be self-recoverable
Shall operate as intended after recovering
(NOTE 2)
Shall be no loss of stored data or user
programmable functions
May be loss of function (one or
more)
Functions shall be recoverable by the
operator
Shall operate as intended after recovering
(NOTE 2)
Test Report ------------------------------------------------------------------------------- 13/47
NOTE 1:
Degradation of performance during the test is understood as a degradation to a level not
below a minimum performance level specified by the manufacturer for the use of the apparatus as
intended. In some cases the specified minimum performance level may be replaced by a
permissible degradation of performance.
If the minimum performance level or the permissible performance degradation in not
specified by the manufacturer then either of these may be derived from the product description and
documentation (including leaflets and advertising) and what the user may reasonably expect form
the apparatus if used as intended.
NOTE 2:
No degradation of performance after the test is understood as no degradation below a
minimum performance level specified by the manufacturer for the use of the apparatus as intended.
In some cases the specified minimum performance level may be replaced by a permissible
degradation of performance. After the test no change of actual operating data or user retrievable
data is allowed.
If the minimum performance level or the permissible performance degradation in not
specified by the manufacturer then either of these may be derived from the product description and
documentation (including leaflets and advertising) and what the user may reasonably expect form
the apparatus if used as intended.
Test Report ------------------------------------------------------------------------------- 14/47
ETSI EN 301 489-1
Performance criteria for Continuous phenomena applied Transmitters (CT)
If no further details are given in the relevant part of the present document dealing with the
particular type of radio equipment, the following general performance criteria for continuous
phenomena shall apply.
During and after the test:
The apparatus shall continue to operate as intended. No degradation of performance or loss of
function is allowed below a permissible performance level specified by the manufacturer when
the apparatus is used as intends. In some cases this permissible performance level may be
replaced by a permissible loss of performance.
During the test:
The EUT shall not unintentionally transmit or change its actual operating state and stored data.
If the minimum performance level or the permissible loss is not specified by the manufacturer,
then either of these may be deduced from the product description and documentation and what
the user may reasonably expect form the apparatus if used as intended.
For ancillary equipment the pass/failure criteria supplied by the manufacturer (see subclause
6.4) shall apply, unless the ancillary equipment is tested in connection with a receiver or
transmitter in which case the corresponding performance criteria above shall apply.
Performance criteria for Transient phenomena applied Transmitters (TT)
particular type of radio equipment, the following general performance criteria for transient
After the test:
During the test:
The EMC exposure to an electromagnetic phenomenon, a degradation of performance is,
however, allowed. No change of the actual mode of operation (e.g. unintended transmission) or
stored data is allowed.
Test Report ------------------------------------------------------------------------------- 15/47
Then either of these may be deduced from the product description and documentation and what
Performance criteria for Continuous phenomena applied Receivers (CR)
particular type of radio equipment, the following general performance criteria for continuous
During and after the test:
During the test:
The EUT shall not unintentionally transmit or change its actual operating state and stored data.
Test Report ------------------------------------------------------------------------------- 16/47
Performance criteria for Transient phenomena applied Receivers (TR)
particular type of radio equipment, the following general performance criteria for transient
After the test:
During the test:
The EMC exposure to an electromagnetic phenomenon, a degradation of performance is,
however, allowed. No change of the actual mode of operation (e.g. unintended transmission) or
stored data is allowed.
Test Report ------------------------------------------------------------------------------- 17/47
ETSI EN 301 489-17
Performance criteria for Continuous phenomena applied Transmitters (CT)
The performance criteria A shall apply.
Tests shall be repeated with the EUT in standby mode (if applicable) to ensure that
unintentional transmission does not occur. In systems using acknowledgement signals, it is
recognized that an ACKnowledgement (ACK) or Not ACKnowledgement (NACK) transmission
may occur, and steps should be taken to ensure that any transmission resulting from the application
of the test is correctly interpreted.
Performance criteria for Transient phenomena applied Transmitters (TT)
The performance criteria B shall apply, except for voltage dips of 100ms and voltage
interruptions of 5000 ms duration, for which performance criteria C shall apply.
Tests shall be repeated with the EUT in standby mode (if applicable) to ensure that unintentional
transmission does not occur. In system using acknowledgement signals, it is recognized that an
acknowledgement (ACK) or not-acknowledgement (NACK) transmission may occur, and steps
should be taken to ensure that any transmission resulting from the application of the test is
correctly interpreted.
Performance criteria for Continuous phenomena applied Receivers (CR)
The performance criteria A shall apply.
Where the EUT is a transceiver, under no circumstances, shall the transmitter operate
unintentionally during the test. In systems using acknowledgement signals, it is recognized that an
ACK or NACK transmission may occur, and steps should be taken to ensure that any transmission
resulting from the application of test is correctly interpreted.
Performance criteria for Transient phenomena applied Receivers (TR)
The performance criteria B shall apply, except for vo ltage dips of 100ms and voltage
interruptions of 5000 ms duration, for which performance criteria C shall apply.
Where the EUT is a transceiver, under no circumstances, shall the transmitter operate
unintentionally during the test. In systems using acknowledgement signals, it is recognized that an
ACK or NACK transmission may occur, and steps should be taken to ensure that any transmission
resulting from the application of test is correctly interpreted.
Test Report ------------------------------------------------------------------------------- 18/47
Chapter 4 Radio Frequency Immunity Test (RS)
RS Test information:
Test setup: GTEM cell
Radiated Immunity Test Setup
Model 7122
Isotropic Probe
High Power
Amplifier
GTEMI Cell
EUT
Signal
Generator
EUT Performance
Monitor
Model 7122 Companion
Metering Unit
Modulation
Generator
Model 7110 Data Processing
/ Interface Unit
Test levels: (Apply Level 2)
Level
Test Field Strength
(V/m)
1
1
2
3
3
10
X
Special
NOTE: the “X” is an open test level. This level may be given in the product specification.
Test Report ------------------------------------------------------------------------------- 19/47
Field strength:
( X ) 3V/m at 80 ~ 800 MHz
( X ) 10V/m at 800 ~ 960 MHz
( X ) 3V/m at 960 ~ 1000 MHz
( X ) 10V/m at 1400 ~ 2000 MHz
(
Modulation:
) FM %
( X ) 80% AM Modulation with 1KHz
(
(
( X ) 1% step size
( X ) 2.5 Second
Step size:
Sweep time:
Test mode:
) 80% AM Modulation with 400Hz when signal is modulated at 1kHz
) 900 KHz² 5 KHz with PM 200 Hz and 100% depth
Ref. Test method of Chapter 1
Test instruments:
Name
EMCO GTEM
EMCO Probe
Model Number
5317
7122
Serial Number
9411-1123
9406-1194
Selected
X
X
EMCO METERING UNIT
7122
9406-1194
X
EMCO data interface
HP Personal Computer
7110
D3178A
9410-1273
3438S00486
X
X
HP Signal Generator
8657B
2928U00286
X
HP Signal Generator
IFI Wideband Amplifier
83711A
SMX50
3429A00434
467-0795
X
X
Min-circuit Amplifier
GFL-2500VH
N/A
X
WG radiation meters
WG E-filed
EMC-20
2244 / 90.20
BN2244129
Z-0001
X
X
HP Transmission Test Set
4935A
3115A24046
X
B & K Precision Sound Level Meter
Type 2232
1810564
X
Comment:
Performance Criteria: (According to ETSI EN 301 489-1)
( X ) Enclosure ( X )CT (
)TT ( X ) CR
( )TR
Test Report ------------------------------------------------------------------------------- 20/47
EN 61000-4-3 PHOTO OF TEST SET-UP
Test Report ------------------------------------------------------------------------------- 21/47
Chapter 5 Electric Fast Transient/Burst Requirements Test
EFT Test information:
General test set-up for laboratory type tests:
> 0.25 m
> 0.25 m
> 0.25 m
> 0.25 m
EUT
(L)
(L)
EUT
AC mains
supply
Capacitive
coupling clamp
AC mains
supply
EUT
EUT
0.1 m
0.1 m
Insulating
support
Reference
plane
EFT/Bgenerator (B)
Grounding connection
according to the
manufacturer’ s
specification.
Length to be specified
in the test plan.
Non-metallic
table
EFT/Bgenerator
(L) = length between clamp and EUT to be tested, should
not be more than 1-meter
(A) = location for supply line coupling
(B) = location for signal lines coupling
Coupling / decoupling
network (A)
Reference
plane
Test Report ------------------------------------------------------------------------------- 22/47
Open-circuit output test voltage ( ±10%) and repetition rate of the impulses (±20%)
On power supply port, PE
On input/output signal, data and
Level
control ports
Voltage peak
Repetition rate
Voltage peak
Repetition rate
kV
kHz
kV
kHz
1
2
0.5
1
5
5
0.25
0.5
5
5
3
2
5
1
5
4
X
4
Special
2.5
Special
2
Special
5
Special
NOTE: the “X” is an open level. The level has to be specified in the dedicated equipment specification
Test setup: According to EN 61000-4-4
Test Voltage:
DC Power line
( ) 0.5 KV, 5 KH
AC Power line
( X ) 1 KV, 5 KHz
Signal & Control line ( X ) 0.5 KV, 5 KHz; ( ) 1 KV, 5 KHz
Polarity:
( X ) Positive
( X ) Negative
Test Duration: ( X ) 1 minute
( ) 3 minutes
Connected lines: ( ) Power line shielded
( X ) Power line non-shielded
( X ) Signal & Control line non-shielded ( ) Signal & Control l ine shielded
Test mode: Ref. Test method of Chapter 1.
Test instrument:
Name
Model Number
Best Plus BURST ESD Best Plus V6.2
SURGE TRANSIENTS
Serial Number
199749-019SC
BEST EMC Test
Instrument
199918-006SC
BEST EMC V2.3
(-8, -9)
KeyTek
Instrument E412
EFT Test system
Selected
9505206/505207
X
Comment:
( X ) Signal and control ports
( )CT
( X )TT
( ) CR
( X )TR
( ) DC power input ports
( )CT
( )TT
( ) CR
( )TR
( X ) AC mains input ports
( )CT
( X )TT
( ) CR
( X )TR
Test Report ------------------------------------------------------------------------------- 23/47
Test Report ------------------------------------------------------------------------------- 24/47
Chapter 6 Electrostatic Discharges Immunity Test
ESD Test information:
Test setup: Shielded room, According to EN 61000-4-2
Test setup for table-top equipment at laboratory tests:
Typical position for
indirect discharge to VCP
indirect discharge
indirect discharge to HCP
VPC
0.5m X 0.5m
Insulation
Horizontal coupling place
1.6m X 0.8m
Power Supply
0.1 m
Wooden table H=0.8m
470kohm
Resistor
Ground Reference Plane
Test Report ------------------------------------------------------------------------------- 25/47
Test levels: (Apply Level 2 and Level 3)
1a —Contact discharge
Level
Test voltage
1b —Air discharge
Level
Test voltage
(kV)
(kV)
1
2
1
2
2
3
4
6
2
3
4
8
4
8
4
15
X
Special
X
Special
NOTE: “X” is an open level. The level has to be specified in the dedicated equipment specification. If
higher voltages than those shown are specified, special test equipment may be needed.
Test Voltage:
( X ) 4KV contact discharge ( X ) 8KV air discharge
Indirect Discharges: ( X ) HCP
( X ) VCP
Polarity:
( X ) Positive
( X ) Negative
Test mode: Ref. Test method of Chapter 1
Test points: Each connector and enclosure of EUT.
Test instruments:
Name
Best Plus BURST ESD
SURGE TRANSIENTS
BEST EMC Test
Instrument
Model Number
Best Plus V6.2
Serial Number
199749-019SC
BEST EMC V2.3
(-8, -9)
199918-006SC
Selected
KeyTek
Instrument Series 2000
ESD Test system
9204303/9204310
9209226/9301395
NoiseKen Electrostatic ESS-100L(A)
Discharge Simulator
NoiseKen Electrostatic TC-815P
Discharge Gun
2100C03605
X
2100C03566
Comment:
( X ) Enclosure
(
)CT
( X )TT
(
) CR
( X )TR
(
)CT
( X )TT
(
) CR
( X )TR
Test Report ------------------------------------------------------------------------------- 26/47
Test Report ------------------------------------------------------------------------------- 27/47
Chapter 7 Surge Immunity Test
Surge Test information:
Test setup:
According to EN 61000-4-5
Test levels: (Apply Level 2 and Level 3)
Level
Test Field Strength
(kV)
1
0.5
2
3
1.0
2.0
4
4.0
X
Special
NOTE: the “X” is an open class. This level may be specified in the product specification.
Test Voltage:
DC Power line ( ) 0.5 KV
AC Power line ( ) Line – Line: 1KV
( ) Line – Ground: 2KV
( X ) Line – Line: 0.5KV
( X ) Line – Ground: 1KV
Control line
( ) 0.5 KV
Signal
( ) 1 KV, ( ) 0.5KV
Time:
( X ) 1.2/50µs (8/20µs)
Polarity:
( X ) Positive
( X ) Negative
Connected lines: ( ) Power line shielded
( ) Signal & Control line non-shielded
( ) Signal & Cont rol line shielded
Test mode: Ref. Test method of Chapter 1.
Test Report ------------------------------------------------------------------------------- 28/47
Test instrument:
Name
Model Number
Serial Number
199749-019SC
SURGE TRANSIENTS
BEST EMC Test
BEST EMC V2.3
199918-006SC
Selected
Instrument
(-8, -9)
KeyTek Pulsed-EMI
E103, 501B, E502B,
0008260 ~0008264,
Test System
E503, E505A,
E4552A
0008254
X
Comment:
(
) Signal and control ports
(
(
)CT
)CT
( X )TT
( )TT
(
(
) CR
) CR
( X )TR
( )TR
Test Report ------------------------------------------------------------------------------- 29/47
Test Report ------------------------------------------------------------------------------- 30/47
Chapter 8 Continuous Wave Voltage Immunity Test
CS Test information:
Immunity test to RF conducted disturbances:
CDN: Coupling and
decoupling network
Auxiliary
equipment 1
CDN
Equipment
under test
Auxiliary
equipment 1
CDN
0.1 m
support
Ground reference plane
T
T2: Power attenuator
(6dB)
T: Termination 50ohm
T2
RF —generator
Test generator
Frequency range 150kHz to 80MHz
Level
Voltage level (e.m.f.)
1
Uo [dB(µv)]
120
Uo [V]
1
2
130
3
3
X
140
10
Special
NOTE: the “X” is an open test level.
Test Report ------------------------------------------------------------------------------- 31/47
Test Frequency:
( X ) 0.15 ~ 80MHz
Modulation:
(
) FM
%
( X ) 80% AM Modulation with 1kHz
(
(
Step size:
) 80% AM Modulation with 400Hz when signal is modulated at 1kHz
) 900 MHz² 5 MHz with PM 200 Hz and 50% duty cycle
( X ) 50kHz step size in the frequency range 150kHz to 5MHz and
(
1% frequency increment of the momentary frequency in the frequency
range 5MHz to 80MHz
) 500kHz step size in the frequency range 150kHz to 5MHz and
10% frequency increment of the momentary frequency in the frequency
range 5MHz to 80MHz for non-continuous duty cycle
Field strength:
(
) 1Vrms
Connected lines:
( ) Power line shielded
( X ) Signal & Control line non-shielded
( ) Signal & Control line shielded
( X ) 3Vrms
(
) 10Vrms
Test Report ------------------------------------------------------------------------------- 32/47
Test instruments:
Name
FRANKONIA EMV–Mess–
Model Number
CIT-10
Serial Number
103A3113
Selected
X
System
FRANKONIA CDN
M2+M3
A3011015
X
FRANKONIA CDN
T2-801
A3010002
FRANKONIA CDN
FRANKONIA CDN
T4-801
S1-801
A3015004
A3005002
SCHAFFNER FM-Koppelzange
KEMZ 801
17045
SCHAFFNER
RF-SYNTHE NSG 2070-1
SIZERIAMP21FIER
SCHAFFNER CDN
M325
SCHAFFNER CDN
M216
1020
SCHAFFNER CDN
T004
15230
SCHAFFNER CDN
SCHAFFNER FM-Koppelzange
S501
KEMZ 801
15167
14301
HP Transmission Test Set
4935A
3115A24046
X
13773
15604
B & K Precision Sound Level Meter Type 2232
1810564
Comment:
(
) Antenna port
)CT
(
)TT
(
) CR
(
)TR
( X )CT
(
)TT
( X ) CR
(
)TR
(
(
)CT
(
)TT
(
) CR
(
)TR
( X )CT
(
)TT
( X ) CR
(
)TR
) DC power input ports
(
Test Report ------------------------------------------------------------------------------- 33/47
Test Report ------------------------------------------------------------------------------- 34/47
Chapter 9 Voltage DIP / Interruption Test
DIP Test information:
Voltage dips:
( X ) 30%, 0.01 Second
(
) 60%, 0.1 Second
Voltage interruptions: ( X ) > 95%, 5 Seconds
Test instruments:
Name
Model Number
SURGE TRANSIENTS
Serial Number
199749-019SC
BEST EMC Test
Instrument
BEST EMC V2.3
(-8, -9)
199918-006SC
Partner EMS Tester
Transienter-1000
PIO
Selected
X
Comment:
Dips 30%:
( X ) CT
( ) TT
( X ) CR
(
Dips 60%:
( ) CT
( ) TT
( ) CR
(
Interruptions >95%: ( ) CT
( ) TT
( ) CR
(
No unintentional responses shall occur at the end of the test;
( ) Event of loss of function(s)
( ) Event of loss of user stored data
Dips 60%, 100 ms :
( )A
( )B
Interruptions >95%, 5 000 ms:
( )A
( )B
) TR
) TR
) TR
(X)C
(X)C
Test Report ------------------------------------------------------------------------------- 35/47
Test Report ------------------------------------------------------------------------------- 36/47
Chapter 10 Harmonics Test
Test information:
Test setup:
Test item:
Test mode:
Quasi – stationary & Fluctuating Current Harmonics Test.
Test instrument:
Name
Model Number
Harmonic/Flicker Test HP 6842A
System
Test Equipment Settings:
Serial Number
3531A-00102
Selected
X
Line Voltage
Quasi-stationary Current
Harmonics Test
230VAC
Fluctuating Current
Harmonics Test
230VAC
Line Frequency
Device Class
50Hz
D
50Hz
D
Test Limit Overrides
None
None
Total Number of Failures:
None
None
Total Number of Errors:
None
None
Test Result: Pass
Test Report ------------------------------------------------------------------------------- 37/47
Chapter 11 Voltage Fluctuation and Flicker Test
Test information:
Test setup:
Test mode:
Test instrument:
Name
Model Number
Harmonic/Flicker Test HP 6842A
System
Serial Number
3531A-00102
Selected
X
Test Equipment Settings:
Line Voltage
Line Frequency
230VAC
50Hz
Test Limit Overrides
None
Total Number of Failures:
Pst: (0), Plt: (0)
Dc: (0), Dmax (0), Dt (0)
Total Number of Errors:
None
Test Result: Pass
Test Report ------------------------------------------------------------------------------- 38/47
Chapter 12 Conducted Emission Test
Test condition and setup
All the equipment is placed and setup according to EN 55022.
(1) Mains power:
The EUT is assembled on a wooden table, which is 80 cm high and placed 40 cm from the
back-wall, which is a vertical conducting plane. One LISN is for EUT, the other LISN is for
support equipment. They are all placed on the conductive ground. The EUT’ s LISN connect a line
switch box for selecting L1 or L2, then connect to a preamplifier and spectrum.
(2) Telecommunication port:
The EUT is place as mains disturbance test. The communication line connected to ISN and
then the measuring receiver connected to the ISN to measured the level of voltage disturbance.
The spectrum scans from 150KHz to 30MHz. Conducted emission levels are detected at
maximum peak mode. But if the maximum peak mode failed or over average limit, it will be
measured by average detection mode.
While testing the worst-emission plot printed in the peak detection mode, and there are up to
6 highest emissions to be recorded. The plot is kept as the original data and not included in the test
report.
List of test Instrument
Calibration Date
Instrument Name
EMI Receiver
RF Filter Section
LISN (EUT)
LISN (Support E.)
ISN
Auto Switch Box
(< 30MHz)
Model No.
8546A
85460A
LISN-01
LISN-01
ISN T400
ASB-01
Brand
Serial No.
HP
3520A00242
HP
3448A00217
TRC
9912-03,04
TRC
9912-05
Schaffner 16596
TRC
9904-01
Last time
06/28/02
06/28/02
06/04/02
07/15/02
10/16/02
11/20/02
Next time
06/28/03
06/28/03
06/04/03
07/15/03
10/16/03
11/20/03
The level of confidence of 95%, the uncertainty of measurement of conducted emissio n is ± 2.02 dB.
Test Report ------------------------------------------------------------------------------- 39/47
CONDUCTED EMISSION PHOTO OF TEST SET-UP
Test Report ------------------------------------------------------------------------------- 40/47
Test Result of Conducted Emissions for Mains power
Test Conditions: Temperature : 24.2 °C Humidity : 60.0 % RH
Test Mode: Operating mode for External antenna
Power Connected
Conductor Frequency
(KHz)
Line 1
Line 2
Emissions
Class B
Peak
QP
Average
QP-limit
AVG-limit
Margin
(dBµ V)
(dBµ V)
(dBµ V)
(dBµ V)
(dBµ V)
(dB)
204.110
57.62
55.81
48.13
64.49
54.49
-6.32
405.000
42.27
---
---
58.71
48.71
-6.44
802.000
39.25
---
---
56.00
46.00
-6.75
919.000
41.07
---
---
56.00
46.00
-4.93
1006.000
42.31
---
---
56.00
46.00
-3.69
1081.000
42.45
---
---
56.00
46.00
-3.55
1621.340
43.59
40.84
26.11
56.00
46.00
-15.16
2205.910
43.59
40.09
22.83
56.00
46.00
-15.91
2610.000
38.90
---
---
56.00
46.00
-7.10
3638.000
37.89
---
---
56.00
46.00
-8.11
204.000
58.86
57.59
49.67
64.49
54.49
-4.82
409.000
44.52
---
---
58.60
48.60
-4.08
499.000
41.42
---
---
56.03
46.03
-4.61
809.000
42.75
---
---
56.00
46.00
-3.25
913.000
44.29
42.53
29.50
56.00
46.00
-13.47
1012.490
44.15
42.75
29.65
56.00
46.00
-13.25
1505.370
44.66
42.54
25.61
56.00
46.00
-13.46
2223.820
44.10
40.34
23.64
56.00
46.00
-15.66
2872.000
39.25
---
---
56.00
46.00
-6.75
3426.740
43.16
39.70
24.09
56.00
46.00
-2.84
*The reading amplitudes are all under limit.
Test Report ------------------------------------------------------------------------------- 41/47
Test Mode: Standby mode for External antenna
Power Connected
Conductor Frequency
(KHz)
Line 1
Line 2
Emissions
Class B
Peak
QP
Average
QP-limit
AVG-limit
Margin
(dBµ V)
(dBµ V)
(dBµ V)
(dBµ V)
(dBµ V)
(dB)
211.270
54.94
45.49
33.70
64.23
54.23
-18.74
405.000
41.99
---
---
58.71
48.71
-6.72
471.000
40.17
---
---
56.83
46.83
-6.66
937.000
39.21
---
---
56.00
46.00
-6.79
1049.000
41.92
---
---
56.00
46.00
-4.08
1802.040
43.21
41.17
24.64
56.00
46.00
-14.83
2243.000
39.82
---
---
56.00
46.00
-6.18
2584.000
40.50
---
---
56.00
46.00
-5.50
3253.000
39.44
---
---
56.00
46.00
-6.56
3975.000
38.42
---
---
56.00
46.00
-7.58
203.000
51.13
---
---
64.49
54.49
-3.36
219.000
55.60
47.84
32.26
63.89
53.89
-16.05
452.000
43.57
---
---
57.37
47.37
-3.80
911.000
41.35
---
---
56.00
46.00
-4.65
1062.000
43.42
42.51
30.56
56.00
46.00
-13.49
1295.000
42.66
---
---
56.00
46.00
-3.34
1695.000
43.71
41.37
27.64
56.00
46.00
-14.63
1994.000
41.99
---
---
56.00
46.00
-4.01
2458.000
39.96
---
---
56.00
46.00
-6.04
3126.000
41.92
---
---
56.00
46.00
-4.08
Test Report ------------------------------------------------------------------------------- 42/47
Test mode: Operating mode for Internal antenna
Power Connected
Conductor Frequency
(KHz)
Line 1
Line 2
Emissions
Class B
Peak
QP
Average
QP-limit
AVG-limit
Margin
(dBµ V)
(dBµ V)
(dBµ V)
(dBµ V)
(dBµ V)
(dB)
210.410
51.55
46.68
33.43
64.34
54.34
-17.66
221.720
52.68
47.58
31.10
63.74
53.74
-16.16
471.000
43.81
---
---
56.83
46.83
-3.02
928.000
41.15
---
---
56.00
46.00
-4.85
1018.870
43.48
38.35
28.82
56.00
46.00
-17.65
1177.370
46.02
43.86
34.33
56.00
46.00
-11.67
1294.940
44.02
42.57
32.37
56.00
46.00
-13.43
1757.260
44.53
43.51
33.66
56.00
46.00
-12.34
1997.450
43.03
42.80
31.25
56.00
46.00
-13.20
3253.000
42.69
---
---
56.00
46.00
-3.31
211.690
55.11
47.73
32.28
63.89
53.89
-16.16
352.000
46.14
---
---
60.23
50.23
-4.09
458.510
46.12
41.27
29.86
56.97
46.97
-15.70
965.390
44.84
29.45
26.70
56.00
46.00
-26.55
1049.730
46.14
45.37
34.83
56.00
46.00
-10.63
1165.990
45.70
45.71
33.29
56.00
46.00
-10.29
1758.790
46.37
44.38
33.84
56.00
46.00
-11.62
1883.070
45.51
44.56
32.33
56.00
46.00
-11.44
2583.340
43.38
41.79
28.83
56.00
46.00
-14.21
3386.090
44.41
42.13
24.84
56.00
46.00
-13.87
Test Report ------------------------------------------------------------------------------- 43/47
Test Mode: Standby mode for Internal antenna
Power Connected
Conductor Frequency
(KHz)
Line 1
Line 2
Emissions
Class B
Peak
QP
Average
QP-limit
AVG-limit
Margin
(dBµ V)
(dBµ V)
(dBµ V)
(dBµ V)
(dBµ V)
(dB)
210.410
51.55
46.68
33.43
64.34
54.34
-17.66
221.720
52.68
47.58
31.10
63.74
53.74
-16.16
471.000
43.81
---
---
56.83
46.83
-2.19
928.000
41.15
---
---
56.00
46.00
-4.85
1018.870
43.48
38.35
28.82
56.00
46.00
-17.65
1177.370
46.02
43.86
34.33
56.00
46.00
-11.67
1294.940
44.02
42.57
32.37
56.00
46.00
-13.43
1757.260
44.53
43.51
33.66
56.00
46.00
-12.34
1997.450
43.03
42.80
31.25
56.00
46.00
-13.20
3253.000
42.69
---
---
56.00
46.00
-3.31
211.690
55.11
47.73
32.28
63.89
53.89
-16.16
352.000
46.14
---
---
60.23
50.23
-4.09
458.510
46.12
41.27
29.86
56.97
46.97
-15.70
965.390
44.84
29.45
26.70
56.00
46.00
-26.55
1049.730
46.14
45.37
34.83
56.00
46.00
-10.63
1165.990
45.70
45.71
33.29
56.00
46.00
-10.29
1758.790
46.37
44.38
33.84
56.00
46.00
-11.62
1883.070
45.51
44.56
32.33
56.00
46.00
-11.44
2583.340
43.38
41.79
28.83
56.00
46.00
-14.21
3386.090
44.41
42.13
24.84
56.00
46.00
-13.87
Test Report ------------------------------------------------------------------------------- 44/47
Test Result of Conducted Emissions for Telecommunication port
Test Conditions: Temperature : 24.2 °C Humidity : 60.0 % RH
RJ45-10Mbps
READING AMPLITUDE
Frequency
(KHz)
LIMIT
Peak
Quasi-Peak
Average
Q-Peak
Average
(dBµV)
(dBµV)
(dBµV)
(dBµV)
(dBµV)
Margin
(dB)
164.320
71.00
70.30
61.12
74.00
64.00
-2.88
16230.000
61.62
---
---
74.00
64.00
-2.38
17710.000
61.34
---
---
74.00
64.00
-2.66
20200.000
59.50
---
---
74.00
64.00
-4.50
23120.000
59.57
---
---
74.00
64.00
-4.43
26100.000
59.85
---
---
74.00
64.00
-4.15
28650.000
59.31
---
---
74.00
64.00
-4.69
RJ45-100Mbps
READING AMPLITUDE
Frequency
(KHz)
LIMIT
Peak
Quasi-Peak
Average
Q-Peak
Average
(dBµV)
(dBµV)
(dBµV)
(dBµV)
(dBµV)
Margin
(dB)
165.110
71.33
70.58
60.63
74.00
64.00
-3.37
13290.000
55.25
---
---
74.00
64.00
-8.75
16230.000
60.80
---
---
74.00
64.00
-3.20
17710.000
58.92
---
---
74.00
64.00
-5.08
21630.000
61.00
---
---
74.00
64.00
-3.00
23120.600
61.25
---
---
74.00
64.00
-2.75
26540.000
61.07
---
---
74.00
64.00
-2.93
Test Report ------------------------------------------------------------------------------- 45/47
Chapter 13 Radiated Emission Test
Test condition and setup
Pretest:
Prior to the final test (OATS test), the EUT is placed in a shielded enclosure,
and scan from 30MHz to 1GHz. This is done to ensure the radiation is exactly emitted from the
EUT. Final test: Final radiation measurements are made on a 10 – meter, open-field test
site. The EUT is placed on a nonconductive table, which is 0.8m height, the top surface is 1.0 x 1.5
meter. The entire placement is according to EN 55022.
The whole range antenna is used to measure frequency from 30 MHz to 1GHz. The final test
is used the spectrum analyzer (EMI Receiver). Measure more than six top marked frequencies
generated form pretest by computer step by step at each frequency.
The EUT is rotated 360 degrees, and antenna is raised and lowered from 1 to 4 meters to find
the maximum emission levels. The antenna is used with both horizontal and vertical polarization.
Appropriated preamplifier which is made by TRC is used for improving sensitivity and
precautions is taken to avoid overloading .The spectrum analyzer’ s 6dB bandwidth is set to 120
kHz, and the EUT is measured at quasi-peak (below 1GHz) mode.
If the emission is close to the frequency band of ambient, the tester will recheck the data and
the corrected data will be written in the test data sheet. If the emission is just within the ambient,
the data from shielded room will be taken as the final data.
List of test Instrument
Calibration Date
Instrument Name
Model No.
Brand
Serial No.
Spectrum analyzer 8568B
HP
3004A18617
Quasi-peak Adapter 85650A
HP
2521A00984
RF Pre-selector
85685A
HP
2947A01011
Antenna
CBL6141A
SCHAFFNER 4188
Open test side (Antenna, Amplify, Cable calibrated together
Last time
06/19/02
06/20/02
06/20/02
11/29/02
05/16/02
Next time
06/19/03
06/20/03
06/20/03
11/28/03
05/15/03
The level of confidence of 95% , the uncertainty of measurement of radiated emission is ± 3.44dB.
Test Report ------------------------------------------------------------------------------- 46/47
Test Result of Spurious Radiated Emissions for External antenna
Test Conditions: Temperature : 24.3 ° C
Humidity : 43.5 % RH
Test mode: 30MHz to 1GHz [Antenna polarity Horizontal]
Radiated
Emission
Frequency Amplitude Ant. H.
(m)
(MHz)
(dBµ V)
Table
(± )
Correction
Corrected
Factors
Amplitude
Class B
( 10 m )
Limit
(dBµ V/m) (dBµ V/m)
(dB)
Margin
(dB)
124.80
29.86
1.00
19
-1.47
28.39
30.00
-1.61
220.36
29.40
1.00
78
-2.74
26.66
30.00
-3.34
300.99
29.43
1.00
119
-2.34
27.09
37.00
-9.91
500.05
24.79
1.00
190
4.56
29.35
37.00
-7.65
600.00
20.95
1.00
251
8.71
29.66
37.00
-7.34
750.07
17.54
1.00
252
12.73
30.27
37.00
-6.73
Test mode: 30MHz to 1GHz [Antenna polarity Vertical]
Radiated
Emission
Correction
Factors
(m)
(MHz)
(dBµ V)
Table
(± )
Corrected
Amplitude
Class B
( 10 m )
Limit
(dB)
Margin
(dB)
43.83
18.44
1.00
251
5.50
23.94
30.00
-6.06
68.23
18.06
1.00
323
2.30
20.36
30.00
-9.64
121.51
28.91
1.00
142
-1.32
27.59
30.00
-2.41
501.66
22.98
1.00
10
4.64
27.62
37.00
-9.38
601.09
20.72
1.00
217
8.74
29.46
37.00
-7.54
750.07
17.03
1.00
209
12.73
29.76
37.00
-7.24
Note:
1. Margin = Amplitude – limit, if margin is minus means under limit.
2. Corrected Amplitude = Reading Amplitude + Correction Factors
3. Correction factor = Antenna factor + ( Cable Loss – Amplitude gain)
Test Report ------------------------------------------------------------------------------- 47/47
Test Result of Spurious Radiated Emissions for Internal antenna
Test Conditions: Temperature : 24.3 ° C
Humidity : 43.5 % RH
Test mode: 30MHz to 1GHz [Antenna polarity Horizontal]
Radiated
Emission
(m)
(MHz)
(dBµ V)
Table
(± )
Correction
Corrected
Factors
Amplitude
Class B
( 10 m )
Limit
(dB)
Margin
(dB)
110.02
23.97
1.00
277
-0.90
23.07
30.00
-6.93
121.51
26.30
1.00
3
-1.32
24.98
30.00
-5.02
300.39
31.19
1.00
47
-2.35
28.84
37.00
-8.16
375.56
27.85
1.00
146
-0.44
27.41
37.00
-9.59
687.17
16.23
1.00
155
11.37
27.60
37.00
-9.40
750.07
16.68
1.00
328
12.73
29.41
37.00
-7.59
Test mode: 30MHz to 1GHz [Antenna polarity Vertical]
Radiated
Emission
Correction
Factors
(m)
(MHz)
(dBµ V)
Table
(± )
Corrected
Amplitude
Class B
( 10 m )
Limit
(dB)
Margin
(dB)
60.22
19.40
1.00
237
3.10
22.50
30.00
-7.50
70.01
23.19
1.00
274
2.12
25.31
30.00
-4.69
108.77
29.63
1.00
222
-0.82
28.81
30.00
-1.19
121.51
28.11
1.00
282
-1.32
26.79
30.00
-3.21
144.58
28.29
1.00
159
-2.00
26.29
30.00
-3.71
624.01
19.44
1.00
327
9.45
28.89
37.00
-8.11
LVD REPORT
Applicant : ASUSTEK COMPUTER INC.
Model No : WL-500b
Report No:A54LV649
Lily Technology Co., Ltd.
No. 3, Alley 5, Lane 217, Chung Hsiao E. Rd., Sec 3
Taipei, Taiwan
TEL : 886-2-8773-6799
FAX : 886-2-8773-6794
Test Report-----------------Low Voltage Directive--------------------------Report No
Applicant
A54LV649
4F1., No.150, Li-Te Rd.,
Taipei, Taiwan, R.O.C.
Test item
Low Voltage Directive
Items tested
Asus SpaceLink 802.11b Wireless Router
Model No.
WL-500b
Sample No.
# A54649
Rating
SELV
Sample received date
05/26/2003
Specifications
EN60950, 2000 / IEC 60950, 3rd Ed, 1999
Results
As detailed within this report
Prepared by
Authorized by
Issue date
Modifications
Tested by
Office at
1/29
project engineer
May / 23 / 2003
Laboratory Manager
None
Lily Technology Co., Ltd.
No. 3, Alley 5, Lane 217, Chung Hsiao E. Road, Sec.3, Taipei
Taiwan
This test report shall not be reproduced except in full, without written
approval of LTC. And the test result contained within this report only relate
to the sample submitted for testing.
Report No. : A54LV649
Test date : 05/21/2003, Lily Technology Co ., Ltd., TEL : 886-2-8773-6799 , Fax : 886-2-8773-6794
Test Report-----------------Low Voltage Directive---------------------------
2/29
SAFETY TEST RESULTS
The results appear in the following order:
EN60950, 2000 / IEC 60950, 3rd Ed, 1999
Safety of information technology equipment –
The results contained herein apply only to the particular samples tested and to the
specific tests carried out, as detailed in this Test Report. The issuing of this Test Report
does not indicate any measure of Approval, Certification, Supervision, Control or
Surveillance by Lily Technology Co., Ltd. of any product. No extract, abridgement or
abstraction from a Test Report may be published or used to advertise a product without the
written consent of the Director, Lily Technology Co., Ltd. who reserves the absolute right
to agree or reject all or any of the details of any items of publicity for which consent may
be sought.
3/29
Test Report EN 60950, 2000 / IEC 60950, 3rd Ed, 1999
Equipment mobility…………………………….: Movable
Operating condition…………………………….: Continuous
Tested for IT power systems…………………...: No
IT testing, phase-phase voltage (V)…………….: N/A
Class of equipment……………………………..: Class III
Mass of equipment (kg)………………………...: <18kg
Protection against ingress of water……………..: N/A
Possible test case verdicts:
- test case does not apply to the test object………………………..: N
- test object does meet the requirement……………………………: P
- test object does not meet the requirements………………………: F
General remarks
“(see appended table)”refers to a table appended the report.
Throughout this report a point is used as the decimal separator.
1. Safety Strategy
- The equipment is powered from SELV by a certified DC Adaptor.
2. Testing Environment:
All testing was conducted at:
- An ambient temperature in the range 25 °C to 35 °C.
- A relative humidity in the range 25% to 75%
- An air pressure in the range 86KPa to 106Kpa
RESULTS
Clause
1.
1.1
Requirement – Test
Result - Remark
Verdict
The product is within the scope of IEC
60950
--
Exposure to extreme temperatures,
excessive dust, moisture or
vibration; to flammable gases; to
corrosive or explosive atmospheres.
Electro medical equipment
connected to the patient.
This equipment is not intended to operate in
a “ normal” environment.
(Offices and homes).
--
This equipment is not an electromedical
equipment intended to be physically
connected to a patient.
--
Equipment used in vehicles, ships or
aircrafts, in tropical countries, or at
elevations > 2000m.
This equipment is intended to operate in a
“normal ” environment.
(Office and homes)
--
GENERAL
SCOPE
Equipment covered by this standard.
1.1.1
1.1.2
Additional requirements:
Equipment intended for use where
ingress of water is possible.
IP-classification (IEC 60529) (IP)
1.2.2
4/29
This equipment is intended to be used in
applications where ingress of water is not
regarded possible. The equipment is
non- protected according to IEC 60529
IP X0.
---
OPERATING CONDITIONS
Normal load as described in Annex
L or as close as possible to the most
severe normal use.
The unit is running to Communicate and
transmit data.
--
1.2.2.2
Rated operating time as assigned by
the Manufacturer.
The manufacturer has not declared a rated
operating time.
--
1.2.2.3
-1.2.2.5 Continuous operation /
Shot-time operation / Inter mitten
operation.
The equipment is regarded to be for
continuous operation.
--
1.2.2.1
Test Report-----------------Low Voltage Directive--------------------------Clause
1.5.
1.5.1
Result - Remark
Verdict
COMPONENTS
General
1.5.2
5/29
Evaluation and testing components
Dimensions (mm) of mains plug for
direct plug-in equipment
Components which were found to affect
safety aspects comply with the requirements
of this standard or within the safety aspects
of the relevant IEC component standards.
(see appended tables)
Components which are certified to IEC and
/ or national standards are used correctly
within their ratings. components not
covered by IEC standards are tested under
the conditions present in the equipment.
P
Not direct plug-in equipment.
N
P
1.5.3
Torque and pull test of mains plug
for direct plug-in; torque (Nm); pull
(N)
Thermal controls
1.5.4
Transformers
Transformers used are suitable for their
intended application and comply with the
relevant requirements of the standard.
N
1.5.5
1.5.6
Interconnecting cables
Capacitors in primary circuits
No interconnection cables.
No X-capacitor.
N
N
1.5.7.1
-1.5.7.3 Double or reinforced
insulation bridged by components.
N
1.5.8
Components in equipment for IT
power system
N
1.6.
1.6.1
POWER INTERFACE
AC power distribution systems
-N
Class III equipment
N
N
1.6.2
1.6.3
1.6.4
6/29
Result - Remark
Verdict
Input current
N
Test voltage (at each rated voltage or
at each end of a rated voltage range)
--
Measured current
--
Deviation
--
Voltage limit of hand – held
equipments (max. 250V)
Neutral conductor
N
N
1.7.
MARKING AND
INSTRUCTIONS
1.7.1
Power rating
The equipment marking is located on
outside surface of the equipment.
P
Rated voltage (s) or voltage range(s)
5 VDC
--
1.7.2
P
Symbol of nature of supply for
d.c. ……….
--
Rated frequency or frequency range
--
Rated current (A) ……….
Manufacturer ……….
Trademark ……….
Type/model ……….
Symbol of Class II ……….
Certification marks ……….
2.0A
ASUS
WL-500B
Class III
CE mark
-------
Safety instructions
The user's manual contains information for
operation, installation, servicing, transport,
storage and technical data. Continuous
operation.
P
7/29
Result - Remark
Verdict
1.7.3
1.7.4
1.7.5
1.7.6
1.7.7
Short duty cycles
Supply voltage adjustment
Power outlets on the equipment
Fuse identification
Wiring terminals
Class III equipment.
No primary fuse.
N
N
N
N
N
1.7.7.1
Protective earthing and bonding
terminals
Class III equipment
N
1.7.7.2
Terminal for ac. mains supply
conductors
Class III equipment
N
1.7.8
1.7.8.1
Controls and indicators
Identification, location and marking
1.7.8.2
Colours
1.7.8.3
Symbols
1.7.8.4
Markings using figures
1.7.9
1.7.10
Isolation of multiple power sources
IT power system
Thermostats and other regulating
devices
1.7.11
1.7.12
1.7.13
Language
Language ……….
Durability
N
N
For functional indication LED lights when
the equipment is operating.
There are no mains switches in the
equipment.
No indicators for different positions.
P
N
N
N
N
N
User's manual and marking were provided
in English Versions in other language will
be provided when the equipment will be
applied for other national certificated.
P
English
--
The marking withstands required tests.
N
1.7.14
1.7.15
Removable parts
Replaceable batteries
No lithium batteries
N
N
1.7.16
Operator access with a tool
No operator access area with tool.
N
1.7.17
Equipment for restricted access
location
Equipment not intended for installation in
RAL.
N
2..
2.1.
2.1.1
2.1.1.1
2.1.1.2
2.1.1.3
2.1.1.4
8/29
Result - Remark
PROTECTION FORM HAZARDS
PROTECTION AGAINST
ELECTRIC SHOCK AND
ENERGY HAZARDS
Protection in operator access areas
Access to energized parts
Battery compartments
Access to ELV wiring
Access to hazardous voltage circuit
wiring
P
P
N
N
N
N
N
2.1.1.5
Energy hazards
2.1.1.6
Manual controls
N
2.1.1.7
Discharge of capacitors in the
primary circuit
N
2.1.2
Verdict
Time-constant (s)
Protection in service access areas
N
N
2.1.3
Protection in restricted access
locations
N
2.2.
SELV CIRCUITS
N
2.2.1
General requirement
2.2.2
Voltage under normal conditions
2.2.3
Voltage under fault condition
2.2.3.1
-2.2.3.3 Method used for separation
2.2.4
Connection of SELV circuits to other
circuits
SELV limits are not exceeded under normal
condition and after a single fault.
Within SELV limits
Moreover a limit of 71 V peak, or 120 V dc.
shall not be exceeded.
SELV circuits are only connected to other
SELV circuits.
P
P
P
N
P
2.3
2.3.1
TNV CIRCUITS
Limits
9/29
Result - Remark
No TNV circuits.
Type of TNV circuits
Verdict
-N
2.3.2
Separation from other circuits and
from accessible parts
Supplementary insulation.
N
2.3.3
Separation from hazardous voltage
No hazardous voltage.
N
2.3.4
Connection of TNV circuits to other
circuits
Supplementary insulation.
N
2.3.5
Test for operating voltage generated
externally
Test is conducted.
N
2.4.
LIMITED CURRENT CIRCUIT: 2.4.1-2.4.3;No limited current circuits.
N
2.5
LIMITED POWER SOURCE
N
2.6.
PROVISIONS FOR EARTHING
2.6.1-2.6.5.8; Class III equipment.
AND BONDING
N
2.7.
OVERCURRENT AND EARTH
Class III equipment
FAULT PROTECTION IN
PRIMARY CIRCUITS
N
2.8.
SAFETY INTERLOCKS
N
2.9
ELECTRICAL INSULATION
2.9.1
Properties of insulating materials
2.9.2
Humidity conditioning
Humidity treatment performed at 25 ℃ for
47hrs at 91-95%
N
2.9.3
Requirements for insulation
Please refer to 4.5.1, 5.2 and 2.10
N
No Limited power source.
2.8.1-2.8.8; No safety interlocks.
N
10/29
Result - Remark
Verdict
2.9.4
Insulation parameters
Application complies with sub-clauses
4.5.1, 5.2 and 2.10
P
2.9.5
Categories of insulation
Insulation is consider to be supplementary
insulation.
P
2.10
CLEARANCES, CREEPAGE
DISTANCES AND DISTANCE
THOUGH INSULATION
Normal voltage
Pollution degree
CTI rating
2.10.1
General
2.10.2
Determination of working voltages
2.10.3 Clearances
2.10.3.1 General
---Considered. see the following clauses:
-P
See table 2.10
Refer below:
P
--
10mm air gap between hazardous
voltage and accessible conductive
parts of enclosure.
N
2mm air gap between hazardous
voltage and earthed accessible
conductive parts of enclosure.
N
2.10.3.2
2.10.3.3
2.10.3.4
2.10.4
2.10.5
Clearances in primary circuits
Clearances in secondary circuits
Measurement of transient levels
Creepage distances
Solid insulation
Not applicable.
See table 2.10
Measurement not relevant
Considered
Refer below:
N
P
P
P
--
2.10.5.1
Minimum distances through
insulation
Considered when transformer approval.
P
2.10.5.2 Thin sheet material
2.10.5.3 Printed boards
N
PCB does not serve as insulation barrier.
N
Result - Remark
Verdict
No wound components without interleaved
insulation.
N
Two wires in contact inside
component
No wound components used.
--
Coated printed boards
No special coating in order to reduce
distances.
N
2.10.5.4 Wound components
2.10.6
11/29
2.10.6.1 General
2.10.6.2
Sample preparation and preliminary
inspection
--
2.10.6.3
2.10.6.4
2.10.6.5
2.10.6.6
Thermal cycling
Thermal ageing
Electric strength test
Abrasion resistance test
-----
2.10.7
Enclose and sealed parts
2.10.8
Spacing filled by insulating
compound
N
2.10.9
Components external terminations
P
2.10.10 Insulation with varying dimensions
3..
WIRING, CONNECTIONS AND
SUPPLY
3.1.
GENERAL
3.1.1
Current rating and overcurrent
protection
3.1.2
3.1.3
Protection against mechanical
damage
Securing of internal wiring
No enclosed hermetically sealed
components.
N
No such transformer used.
N
No internal wiring/ interconnection cables.
N
No internal wiring.
N
No internal wiring.
N
12/29
Result - Remark
Verdict
3.1.4
Insulation of conductors
No internal wiring.
N
3.1.5
Beads and ceramic insulators
Not used.
N
3.1.6
Screws for electrical contact
pressure
No electric screw connection.
N
3.1.7
Non-metallic materials in electrical
connections
No contact pressure through insulation
material.
N
3.1.8
Self-tapping and spaced thread
screws
Thread-cutting or space thread screws are
not used for electrical connections.
N
3.1.9
Termination of conductors
Termination can not become displaced so
that clearances and creepage distances can
be reduced.
P
3.1.10
10 N force test
Sleeving on wring
No internal wiring.
P
N
3.2.
CONNECTION TO A.C. MAINS Class III equipment. No direct connection
SUPPLIES
to mains.
N
3.3.
WIRING TERMINALS FOR
3.3.1-3.3.8;Class III equipment. No direct
CONNECTION OF EXTERNAL
connection to mains.
CONDUCTORS
N
3.4.
DISCONNECTION FROM THE Class III equipment. No direct connection
A.C. MAINS SUPPLY
to mains.
N
3.5
INTERCONNECTION OF
EQUIPMENT
3.5.1
General requirements
See below
--
3.5.2
Type of interconnection circuits
No TNV circuits.
--
3.5.3
ELV circuits as interconnection
circuits
No ELV interconnection
N
4..
PHYSICAL REOUIAEMENTS
4.1.
Stability
Angle of 10°
Test: force (20%of the weight of the
unit, max. 250N)
Test: force (800N)
4.2.
4.2.2
4.2.3
4.2.4
4.2.5
MECHANICAL STRENGTH
Steady force test, 10 N
Internal enclosures 30N
3 ; 5
External enclosures 250N 10 ; 5
Impact test
13/29
Result - Remark
Verdict
Refer below:
Unit does not overbalance at 10°
-P
Not floor standing.
N
Not floor standing.
N
P
P
N
P
N
4.2.6
Drop test
No hazard, ref. Comment in table 2.10.
No internal enclosure.
No hazard. The test is performed at 250N.
Refer below:
No hazard as result form the steel sphere
fall test.
No hazard as result form the steel sphere
swing test.
Drop test not applicable.
4.2.7
Stress relief
The enclosure is metal.
N
4.2.8
4.2.9
Cathode ray tubes
High pressure lamps
N
N
4.2.10
Well or ceiling mounted equipment
CRT is not used in the equipment.
No high pressure lamps in the equipment.
Not intended to be mounted on a wall or
ceiling.
4.3.
DESIGN AND CONSTRUCTION
431
Edges and corners
All edges and corners are rounded and/or
smoothed.
P
4.3.2
Handles and manual controls
No knobs, grips, handles, lever etc.
N
4.3.3
Adjustable controls
No hazardous adjustable controls.
N
Fall test
Swing test
N
N
N
N
4.3.4
14/29
Result - Remark
Verdict
Securing of parts
No loosening of parts impairing creepage
distances or clearances is likely to occur.
P
4.3.5
Connection of plugs and sockets
SELV and TNV connectors do not comply
with IEC 60320 or IEC 60083.
P
4.3.6
Direct plug-in equipment
Not intended to plug directly into a wall
socket-outlet.
N
Torque (Nm)
Nm
4.3.7
Heating elements in earthed
equipment
No heating elements provided.
N
4.3.8
Batteries
No lithium batteries.
N
4.3.9
Oil and grease
Insulation not in contact with
oil or grease.
N
4.3.10
Dust, powders, liquids or gases
The equipment does not generate ionising
radiation or use a leaser, and does not
contain flammable liquids or gases.
N
4.3.11
Containers for liquids or gases
No containers for liquids or gases in the
equipment.
N
4.3.12
Flammable liquids.
The equipment dose not contain flammable
liquid.
N
Quantity of liquid
L
Flash point
℃
4.3.13
Radiation
Diffusion LED only.
4.4
PROTECTION AGAINST
HAZARDOUS MOVING PARTS
4.4.1
General
4.4.2
4.4.3
Protection in operator access areas
Protection in restricted access areas
location.
4.4.4
Protection in service access areas
N
Adequate protection against risk of personal
injury.
No moving parts.
N
Not intended for installation in RAL.
N
Unintentional contact is not likely in service
access areas.
P
P
4.5
4.5.1
4.5.2
THERMAL REQUIREMENTS
Temper rises
Resistance to abnormal heat
4.6
4.6.1
OPENING IN ENCLOSURE
Top and side openings
Top openings
15/29
Result - Remark
(see appended table)
Refer below:
Openings in top are not located above bare
parts at hazardous voltage.
Dimensions (mm) ……….
Front, side and rear openings
Verdict
P
N
P
--
Openings in top are not located above bare
parts at hazardous voltage.
Dimensions (mm) ……….
---
Protection against emission of flame,
molten metal, flaming or glowing particles
or drops by the fire enclosure with no
bottom opening.
4. 6.2
Bottom of fire enclosures
4.6.3
4.6.4
Doors and covers in fire enclosure
Opening in transportable equipment
No door or cover.
4.6.5
Adhesives for constructional
purposes
No barrier secured by adhesive inside
enclosure.
N
Conditioning temperature/time
℃/week(s).
--
Method 1 is used.
N
P
4.7.
RESISTANCE TO FIRE
4.7.1
Reducing the risk of ignition and
spread of flame
4.7.2
Condition for a fire enclosure
4.7.2.1
Parts requiring a fire enclosure
4.7.2.2
Parts not requiring a fire enclosure
4.7.3
Materials
4.7.3.1
General
Refer below:
The fire enclosure is required to cover all
parts.
The fire enclosure is required to cover all
parts.
Components and materials have adequate
flammability classification, Refer to “List
of Critical Components”.
Considered.
4.7.3.2
Materials for fire enclosure
That is fire enclosure.
P
N
N
P
N
N
P
N
16/29
Result - Remark
Verdict
4.7.3.3
Material for components and other
parts outside fire enclosure
No parts outside the fire enclosure.
N
4.7.3.4
Materials for components and other
parts inside fire enclosure
Other materials inside fire enclosure are
minimum 94V-2 material.
P
4.7.3.5
Materials for air filter assemblies
No air filter assemblies
N
4.7.3.6
Materials used in high-voltage
components
No used high-voltage components.
N
5.
ELECTRICAL
REQUIREMENTS AND
SIMULATED ABNORMAL
CONDITIONS
5.1
Touch current and simulated
abnormal conductions
N
5.1.1
5.1.2
General
Equipment under test (EUT)
No applicable.
N
N
5.1.3
Test circuit
5.1.4
5.1.5
5.1.6
Application of measuring instrument
Test procedure
Test measurements
Test voltage
Measured current
Max. allowed current
Tested for connection to IT power
distribution system.
(also relevant for TN or TT power
distribution system)
mA
mA
-N
N
N
----
5.1.7
Equipment with earth leakage
current exceeding 3.5 A
N
5.1.8
Touch currents to and form
telecommunication network.
N
5.1.8.1
Limitation of the touch current to a
telecommunication network
17/29
Result - Remark
None of the values measured
shall exceed 0.25 mA r.m.s
Verdict
N
Test voltage
Measured current
Max. allowed current
5.1.8.2
Summation of touch currents form
telecommunication networks
5.2.
ELECTRIC STRENGTH
5.2.1
-5.2.2 General. Test procedure
5.3.
ABNORMAL OPERATING AND
FAULT CONDITIONS
5.3.1
Protection against overload and
abnormal operation
5.3.2
Motors
5.3.3
5.3.4
5.3.5
5.3.6
5.3.7
Transformers
Functional insulation
Electromechanical components
Simulation of faults
Unattended equipment
5.3.8
Compliance criteria for abnormal
operating and fault conditions
5.3.8.1
During the tests
5.3.8.2
After the tests
≦0.25 mA
N
P
N
No motors.
Refer to 5.3.8
Refer to 5.3.8
Refer below:
No fire or molten metal occurred and no
deformation of enclosure during the tests.
No reduction of clearance and creepage
distances, Electric strength test is made on
basic and supplementary insulation.
N
N
N
N
N
N
-N
N
6.
CONNECTION TO
TELECOMMUNICATION
NETWORKS
6.1.
PROTECTION OF
TELECOMMUNICATION
NETWORK SERVICE
PERSONNEL, AND USERS OF
OTHER EQUIPMENT
CONNECTED TO THE
NETWORK, FROM HAZARDS
IN THE EQUIPMENT.
6.1.1
Protection from hazardous voltages
6.1.2
Separation of the
telecommunication network form
earth
Requirements
18/29
Result - Remark
No TNV circuits.
Verdict
--
N
Refer below:
--
There are no connections to protective earth.
N
Test voltage
V
--
Current in the test circuit
mA
--
Exclusions
No exclusions are applicable.
P
6.2.1
6.2.2
PROTECTION OF THE
EQUIPMENT USERS FROM
VOLTAGES ON THE
TELECOMMUNICATION
NETWORKS.
Separation requirement
Electric strength test procedure
6.2.2.2 applied.
N
N
6.2.2.1
Impulse test
Not applicable, ref. Sub-clause 6.2.2.2
N
6.2.2.2
Steady-state test
6.1.2.1
6.1.2.2
6.2
N
6.2.2.3
Compliance criteria
6.3.
PROTECTION OF
TELECOMMUNICATION
WIRING SYSTEM FROM
OVERHEATING
Maximum output current
19/29
Result - Remark
No breakdown of insulation during above
tests.
Verdict
N
N
A
Current limiting method
---
Clause
Annex A
A.1
A.2
A
Requirement - Test
TESTS FOR RESISTANCE TO
HEAT ND FIRE
20/29
Result – Remark
All materials have suitable flame class, no
testing required.
Flammability test for fire enclosures of moveable equipment having a total mass
exceeding 18kg, and of stationary equipment.
Flammability test for fire enclosures of moveable equipment having a total mass
not exceeding 18kg, and for materials located within fire enclosure.
Tested material
Mounting of samples during test;,
Wall thickness
Sample 1 burning time
Material: compliance with the
requirements
Manufacturer of tested material
Type of tested material
Additional information
Verdict
N
N
N
N
--N
N
N
N
----
Clause
Annex B
B.2
B.4
B.5
B.6
B.7
B.7.2
B.7.3
B.8
B.9
B.10
Requirement - Test
MOTOR TESTS UNDER
ABNORMAL CONDITIONS
21/29
Result – Remark
No motors in the equipment.
Position
Manufacturer
Type
Rated voltage (V) or current (A)
Max. Temperatures
Running overload test
Locked-rotor overload test
Test duration (days)
Electric strength test:
test voltage (V)
Running overload test for DC motor
in secondary circuits
Locked-rotor overload test for DC
motor in secondary circuits
Alternative test procedure;
test time (h)
Electric strength test
Test for motors with capacitors
Test for three-phase motor
Test for series motors operating
voltage (V)
Verdict
N
----N
N
N
--N
N
N
N
N
N
N
Clause
Annex C
C.1
C.2
Requirement - Test
TRANSFORMERS
Position
Manufacturer
Type
Rated values
Method of protection
Overload test
Linear transformer
Ferro-resonant transformer
Transform for switch mode power
supply
Type of thermal cut-out
Insulation
Precautions taken
Retaining of end turns of all
windings
Earthed screen for protective
purposes
22/29
Result – Remark
Verdict
N
--
Approved transformer used.
--N
N
-----
The insulation fulfil the requirements in
2.10 and relevant tests of 5.2.2
See the attached specification for the
transformer.
Secured to the soldering pins with
wrapping.
No earthed screen for protective purposes.
N
N
N
N
23/29
APPENDED TABLES
1.5
List of critical components
Manufacturer/
Trademark
Object/part No
Switch Adaptor
Main PCB
1.6
DVE
---
UL R/C
I/P: 100~240VAC
DSA-0101F-05A
50-60Hz
O/P: 5V DC 2.0A
UL/CE
---
94V-0
P
Volts
Max. Normal Load
B/S
2.10
Type of
insulation
B/S
UL R/C
Input Test
Input Condition
Type of
insulation
Mark(s) of
Conformity
94V-HB or batter
Recognized
Operating Condition
2.10
Technical
Data
Type / model
Applicant’s
Spec.
Plastic enclosure
P
DC
5.0
Input Current (A)
Rated
Measured
Average
Power Watts
2.0
1.1
5.5
Clearance and creepage distance measurements
Working voltage
Clearance 2.10.3
Position/Location
PCB TNV SELV
Comm.
Up
U rms
Required
<120V
<120V
1.0mm
Measured
>1.0mm
Clearance and creepage distance measurements
Working voltage
P
Creepage distance 2.10.4
Position/Location
PCB TNV SELV
P
Comm.
Up
U rms
Required
<120V
<120V
1.5mm
Measured
>1.5mm
24/29
4.5
P
Temperature measurements
Test voltage (V)…………………..:
5 VDC
-
t1 ( °C)……………………...:
Temperature rise dT of part/at:
TEST POINT
Dt (K)
Required dT (K)
T1 body
CH01
13.2
60
U3 body
CH02
25.2
60
U11 body
CH03
38.4
60
U30 body
CH04
21.2
60
U8 body
CH05
16.9
60
L15 body
CH06
15.3
60
C183 body
CH07
11.0
60
RF model body
CH08
20.4
60
Outside enclosure
CH09
8.6
60
Ambient
CH10
26.8
/
4.7
Resistance to Fire
Item
PCB
UL Recognized
P
Declared Rating
V-0
25/29
APPENDIX –TEST INSTRUMENTS
Inst. ID
Instrument No.
LTC01
THS-ML1
LTC02
GPI-615
LTC03
GDM-8039
HP OSCILLO
SCOPE
CHITAI
2402A
CHENHWA
DC Electronic Load
IMADA
FB-50
LTC04
LTC05
LTC06
LTC07
Range Used
Temperature : 70 °C
R. Humidity :. 60%
Cutoff Current:10mA:
Voltage:1500VAC
VAC
DC/AC
0-500 V
Instruments Type
Temperature Humidity Chambers
Withstand Voltage Tester
Digital Multimeter
54600A
Auto
Digital Power Meter
(DC/AC)
60V/60A
2600
50 KG
Resolution: 0.5N
Ball Impact Test
H.: 1.30 m
50-300
Portable Force Indicator
LTC08
N/A
LTC09
LTC14
OVEN
YOKOGAWA
HR1300
ED&D
LT-952HC
GW
GFG-813
APC
AFC-3KB
GDM 8055
LTC15
GDM 8055
20 VAC
Digital Multimeter
LTC16
12.5 mV/Pa
Microphone
Gain: 0dB
Pre-Amplifier
70-140 dBspl
Precision Sound Level Meter
LTC19
B&K 4155
B&K
ZC0020
B&K
TYPE 2230
1036-AF
ANSI S3.7-1973
Acoustic Coupling
LTC20
TRC 1102
Press T1 V1
Surge Testor
LTC21
OTS
All
Overvoltage Test Simulator
LTC22
GDM-8039
Lufkin
5m/16’
GW
GCT-630
VAC
1 Meter
1.3 Meter
Digital Multimeter
Ohm.& A.
Ground Continuty Tester
LTC10
LTC11
LTC12
LTC13
LTC17
LTC18
LTC23
LTC24
Steel Sphere
Thermal Oven
CH1-CH20
HYBRID Recorder
20 Ma, 2 mA
Leakage Current Tester
100 Hz – 10 KHz
13 MHz Function Generator
90V-260V
47-63Hz, 3KVA
200 Ma (DC A)
AC Power Source
Digital Multimeter
Roll Ruler
26/29
PHOTO OF EUT
27/29
28/29
29/29
Copy of the R&TTE Declaration of
Conformity (DoC)
Declaration of Conformity
We, the under signed,
Company
Address, City
Country
Phone number
Fax number
E-mail
Taiwan 112
886-2-28943447
886-2-28950113
[email protected]
certify and declare under our sole responsibility that the following equipment:
Manufacturer
Brand
Type
Wireless Router
ASUS
WL-500b
is tested to and conforms with the essential radio test suites included in the following standards:
Standard
ETSI EN 300 328-1
ETSI EN 300 328-2
ETSI EN 301 489-1
ETSI EN 301 489-17
EN 60950
Issue date
V1.3.1 Dec. 2001
V1.2.1 Dec. 2001
V1.4.1 Aug. 2002
V1.2.1 Aug. 2002
2000
and therefore complies with the essential requirements and provisions of the R&TTE directive
1999/5/EC of the European Parliament and of the council of 9March 1999 on radio equipment and
Telecommunications Terminal Equipment and the mutual recognition of their conformity and the
requirements of Annex IV (conformity Assessment procedure referred to in article 10(4)).
The following Notified Bodies have been consulted in the Conformity Assessment procedure:
Notified Body number
Name and address
The technical documentation as required by the Conformity Assessment procedure is kept at the
following address:
Company
Address, City
Country
Phone number
Fax number
E-mail
Taiwan 112
886-2-28943447
886-2-28950113
[email protected]
Draw up in
Data
Taiwan, R.O.C.
2003/5/22
Taiwan 112
Product Quality
Assurance Documents
Declaration of Product Quality Assurance
In accordance with the Conformity Assessment procedure referred to in article 10(3) of R&TTE
Directive 1999/5/EC of the European Parliament and the council of 9 march 1999 on the Radio
equipment and Telecommunication Terminal Equipment and their mutual recognition of their conformity
(R&TTE directive) the following manufacture:
Company
Address, City
Country
Phone number
Fax number
E-mail
Taiwan 112
886-2-28943447
886-2-28950113
[email protected]
declares under its sole responsibility that it had taken the following measures in order to achieve that
the manufacturing process ensures compliance of the manufactured products with the technical
documentation as established by ASUSTeK Computer Inc. under the requirements of the R&TTE
directive and with the requirements of R&TTE directive that apply to them:
Number
01
Measures taken in order to achieve that the manufacturing process ensures
compliance of the manufactured products
Manufacturing of the equipment is subcontracted by ASUSTEK COMPUTER INC.
located at 150, Li-te Rd., Peitou, Taipei 112, Taiwan, Taiwan, who is ISO 9001
certified for development, production and distribution of radio products. (See copy
of ISO 9001 certification attached)
Draw up in
Data
Taiwan, R.O.C.
2003/5/22
Taiwan 112

Chapter 3 - Home Gateway Utilities

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