signal level

Transcription

signal level

SMART TOOLS
PROGRAMER
20.06.2015
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CONTENTS
1.INFORMATION
2.POWER TO:
 ALLPROG II
 SMART PROG
3.MAIN INFORMATION
4.MEMORY MICROWIRE ,SPI ,I2C
5.BMW STECKER
6.MOTOROLA / FREESCALE HC12
7.MOTOROLA / FREESCALE HC908
8. M35080, M35080-3,M35080-6, M35080V6,M35080VP, D80D0WQ
9.MOTOROLA 68HC11



















MC68HC11A1/A8/E1/E2/E9/E20 - PLC52
MC68HC11A1/A8/E1/E2/E9/E20 - DIP48
MC68HC11A8/E1/E2/E9/E20 - QFP64
MC68HC11E1/E2/E9/E20 - QFP52
MC68HC11E1/E2/E9/E20 - SDIP56
MC68HC11EA9(0D46J, 1D47J, 2D47J) - PLCC52
MC68HC11F1 - PLCC68
MC68HC11F1 - QFP80
MC68HC11K4 - QFP80
MC68HC11K4 - PLCC84
MC68HC11KA2/KA4 - PLCC68
MC68HC11KA2/KA4 - QFP64
MC68HC11KG4 - TQFP100
MC68HC11KS2/KS4/KS8 - PLCC68
MC68HC11KS2/KS4/KS8 - LQFP80
MC68HC11KW1- TQFP 100
MC68HC11L06 - QFP64
MC68HC11L06 - PLCC68
MC68HC11P2 ( 3E74J,1E53M,0G10V ) - PLCC84
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


MC68HC11PA8 - QFP64
MC68HC11PH8 (3D64J, 0H30R) -PLCC84
MC68HC11PH8 - TQFP112
10. MOTOROLA 68HC05, 68HC705


MC68HC05E6 - SOIC28
MC68HC05H12 - PLCC52
11. MCU NSC CR16

CR16 - QFP80
( CR16HCS5, CR16HCS9, CR16HCT5, CR16HCT9, CR16MCS5, CR16MCS9, CR16MCT5,
CR16MCT9, CR16MES5, CR16MES9, CR16MFS5, CR16MFS9)

CR16 - PLCC44
( CR16HCS5, CR16HCS9, CR16HCT5, CR16HCT9, CR16MCS5, CR16MCS9, CR16MCT5,
CR16MCT9, CR16MES5, CR16MES9, CR16MFS5, CR16MFS9)
12.FREESCALE MAC


MAC7241, MAC7242 100PIN - LQFP
MAC7241, MAC7242 144PIN - LQFP
13.ST
 ST6240-QFP80
 ST6245-QFP52
 ST6249-QFP68
14. SPC


SPC560P50L3 -100PIN LQFP
SPC560P50L3 - 144PIN LQFP
16. INFINEON

LQFP64
( SAK-XC2334B-24, SAK-XC2335B-24, SAK-XC2335B-40, SAK- XC2336B-24,
SAK-XC2336B-40, SAK-XC2331B-24, SAK-XC2331B-40, SAK-XC2333B-24,
SAK-XC2333B-40 )

LQFP100
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( SAH-XC2361A-56, SAH-XC2361A-72, SAH-XC2363A-56, SAH-XC2363A-72,
SAH-XC2364A-56, SAH-XC2364A-72, SAH-XC2364A-104, SAH-XC2365A-56,
SAH-XC2365A-72, SAH-XC2365A-104, SAH-XC2060M-104, SAK-XC2060N-40 )
17. RENESAS H8SX

R5F61721, R5F6173, R5F6175 -100PIN LQFP
18. RENESAS V850

μPD70F3370A, μPD70F3371M -LQFP64

μPD70F3372M, μPD70F3373M, μPD70F3735, μPD70F3736 -LQFP80

μPD70F3374, μPD70F3375, μPD70F3376A, μPD70F3376A, μPD70F3377A,
μPD70F3739, μPD70F3740, μPD70F3741, μPD70F3742, μPD70F3794, μPD70F3795,
μPD70F3796 -LQFP100

μPD70F3378M, μPD70F3379M, μPD70F3380M, μPD70F3381M, μPD70F3382M,
μPD70F3743, μPD70F3744, μPD70F3745, μPD70F3746 -LQFP144

μPD70F3383M, μPD70F3384M, μPD70F3385M, μPD76F0115 -LQFP176
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GENERAL INFORMATION
General information
Help prepared for ALLPROG II
( METREX Software 2003-2015 )
Contakt: [email protected]
WEB: www.allprog.pl
For assistance using information fields, which, depending on the degree of
validity adopted the following sign:
Little important information
Average important information
Very important information
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POWER TO ALLPROG II
When connected to USB ALLPROG II all the power necessary to work
ALLPROG II is taken from a computer USB port. If you have problems too low
voltage or a large load can be connected into an external power supply for this
purpose must meet the conditions:
 Connect the power supply via 12V ADAPTER 1 or 2, or plug the
OBD2 important that the power was greater than or equal to 12V
only then will switch to an external power supply (12V below will
continue to benefit from the USB port.)
ADAPTER 1:
ADAPTER 2:
 It must be remembered ALLPROG II power on.
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PLUG1=PLUG2=PLUG3
PIN
PLUG1
PLUG2
PLUG3
ADAPTER1=ADAPTER2
PIN 1 PIN 2 PIN 3 PIN 4 PIN 5 PIN 6 PIN 7 PIN 8 PIN9 PIN10
1
1
1
2
2
2
3
3
3
4
4
4
5
5
5
6
6
6
7
7
7
8
8
8
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GND
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5V
POWER TO SMART PROG
When connected to SMARTPROG all the power necessary to work
SMARTPROG is taken from a computer USB port. If you have problems too low
voltage or a large load can be connected into an external power supply for this
purpose must meet the conditions:
 Disconnect jumper (2)
 Connect the power supply (1)
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PLUG 1 = PLUG 2 ≠ PLUG4
PIN
PLUG 1
(5)
PLUG 2
(7)
PIN
PLUG 4
(6)
PORT 1----> PLUG 1(5) = PLUG2(7)
PIN1 PIN2 PIN3 PIN4 PIN5 PIN6 PIN7 PIN 8
o
o
o
o
o
o
o
o
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
PIN9
o
GND
PIN10
o
5V
PIN9
o
IRQ
PIN10
o
-
8
PORT 2----> PLUG 4(6)
PIN1 PIN2 PIN3 PIN4 PIN5 PIN6 PIN7 PIN 8
o
o
o
o
o
o
o
o
1
2
3
4
5
6
7
8
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MAIN INFORMATION-PROGRAMMER
Toggle bookmark for PROGRAMER:
- Select the type of memory.
- The buttons to read and write memory,
depending on the memory or mcu may be contain
different configurations.
READ EEPROM - Reading the memory to the editor.
WRITE EEPROM – Write memory.
VERIFY - Verify that is, compare the contents of the
memory editor with IC (memory or mcu).
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WRITE CHANGE - that is programmed only changes
made to the editor.
ERASE - erases the entire contents of memory on a
value FF or 00 it depends of memory.
CONNECTIONS - connections to memory or mcu.
HELP - all information about ALLPROG II or
SMARTPROG.
Set programming voltage Enable or disable pull-up
resistors.
memory I2C address of the memory (Each has its
own memory address, depending on configuration .)
Time between the write or read memory byte
counted in ms. If needed set custom write or read
delays.
Adjustable voltage reading at an incorrect reading to
adjust voltage.
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Programming time and read or type of quartz if it is
Motorola.
SWAP- Function to convert the two bytes of each
other, eg from 1234 to 3412 conversion. Different
programmers can turn when reading the bytes so this
function can be freely reversed.
It shows what needs to be connected to be able to
reading-programming memory.
 WHITE- no connection required.
 GREEN- important transmission must be connected
 BLACK- GND (only connect the wires to connect the
programming memory ALLPROG II - SMARTPROG because
can not connect GND direct to ALLPROG II-SMARPROG.)
 RED –VCC memory (only connect the wires to programing
memory ).
Shows which pins are not connected
Condition set TEST CONTACT. See point 1
 WHITE- no connection required.
 GREEN- Connect OK.
 RED – Connect ERROR.
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1). Test proper contact between the connecting pins depending on the options
:
 TEST CONTACT– Test Connction before READ- WRITE- ERASE
 AUTODETECT CONTACT – when you select READ-WRITEERASE programmer waits for the readiness to combine all
the necessary pins and passes to the selected option. Very
useful function for reading the on needle .
 IGNORE CONTACT – ignore the test pins.
STATUS- shows the correctness of operations made
read-write
PDF- number of the documentation on how to connect.
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MEMORY MICROWIRE ,SPI ,I2C
The list of connections needed to read or write the individual memory:
MEMORY:
I2C: 24C01, 24C02, 24C04, 24C08, 24C16,24E161, 24C32,24C32,24C64, 24C128,
85C92,BAW574252…..
SPI: 95010, 95020, 95040, 95080, 95080, 95160, 95320, 95640, 95128, SP08….
MICROWIRE:93C06 x 8, 93C46 x 8, 93C56 x 8, 93C66 x 8, 93C76 x 8, 93C86 x 8,
93C06 x 16, 93C46 x 16, 93C56 x 16, 93C66 x 16, 93C76 x 16, 93C86 x
16,YAKAZAKI AB, 59C11…..
CONECTIONS : PLUG 1, PLUG 2, PLUG3
PLUG1: Clip K1-SOIC8, K2-DIP8, K3-SOIC14, K4-WIRES:
1-BLACK,
2-WHITE
3-GREY
4-VIOLET
5-BLUE
6-GREEN
7-YELOW
8-ORANGE
I2C
SPI
MICROWIRE
PIN 1
PIN 2
PIN 3
X
X
X
X
X
X
PIN 4
X
X
X
PIN 5
X
X
X
PIN 6
X
X
PIN 7
PIN 8
X
X
X
BMW STECKER
Connections All Steckers WHITE,GREEN,BLUE,BROWN,BLACK connect to PLUG3
on ADAPTER 1 or ADAPTER 2:
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MOTOROLA FREESCALE HC12
Connect to ADAPTER 1 or ADAPTER 2
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Crystal AUTO
Automatic detection of quartz 4MHz, 8Mhz, 16Mhz.
Conection EXTAL
If you connect an additional outlet in the EXTAL select EXTERNAL quartz is not
necessary in the system quartz desolding ALLPROG II independently mounted
quartz generates the frequency for reading the processor
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68HC12B32
68HC912D60
MC68HC912D60A
MC68HC912DC128
MC68HC912DG128
MC68HC912DC128A
MC68HC912DG128A
MC9S12D64
MC9S12DG64
MC9S12DB128
MC9S12DG128
MC9S12DJ128
MC9S12DT128
MC9S12A128
MC9S12DB256
MC9S12DG256
MC9S12DJ256
MC9S12DT256
MC9S12A256
MC9S12H128
MC9S12H256
MC9S12XHZ256
HC9S12XHZ512
MC9S12HZ64
MC9S12HN64
MC9S12HZ64
MC9S12HN64
MC9S12HZ128
MC9S12HZ256
MC9S12XD64
MC9S12XDG128
MC9S12DG256
MC9S12XD256
MC9S12XDP384
MC9S12XDT384
MC9S12DP512
CONNECTIONS MCU :
80 PIN
80 PIN
112 PIN
80 PIN
112 PIN
112 PIN
80 PIN
144 PIN
112 PIN
112 PIN
80 PIN
112 PIN
144 PIN
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MC9S12XDP512
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MC68HC12B32 - 80 pin
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MC68HC912D60, MC68HC912D60A, MC68HC912DC128, MC68HC912DG128,
MC68HC912DC128A, MC68HC912DG128A - 80 pin
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68HC912D60, MC68HC912D60A, MC68HC912DC128, MC68HC912DG128,
MC68HC912DC128A, MC68HC912DG128A - 112 pin
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MC9S12D64, MC9S12XD64, MC9S12DG64, MC9S12XDG128, MC9S12DG256,
MC9S12DB128 , MC9S12DG128, MC9S12DJ128 , MC9S12DT128 ,
MC9S12A128, MC9S12DB256 , MC9S12XD256, MC9S12DG256, MC9S12DJ256 ,
MC9S12DT256 , MC9S12A256, MC9S12XDP384, MC9S12XDT384,
MC9S12XDP512 - 80PIN
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MC9S12D64, MC9S12DG64, MC9S12XD64, MC9S12DG256, MC9S12XDG128,
MC9S12DB128 , MC9S12DG128, MC9S12DJ128 , MC9S12DT128 , MC9S12A128,
MC9S12XD256, MC9S12XD256, MC9S12DB256 , MC9S12DG256, MC9S12DJ256 ,
MC9S12DT256 , MC9S12A256, MC9S12XDP384, MC9S12XDT384, MC9S12DP512 ,
MC9S12XDP512 -112PIN
SIGNAL LEVEL
-
-
-
-
GND
BKGD
0
0/1
-
RESET
VCC 5V
0/1
5V
QUARTZ (OSCILLATOR) - 46,47 PINS
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MC9S12XD64, MC9S12XDG128, MC9S12XD256, MC9S12XDP384, MC9S12XDT384,
MC9S12XDP512 -144PIN
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MC9S12HZ64, MC9S12HN64, MC9S12HZ256, MC9S12HZ128, MC9S12XHZ256,
HC9S12XHZ512, MC9S12H128, MC9S12H256 - PIN 112
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MC9S12XHZ256, HC9S12XHZ512, MC9S12H128, MC9S12H256 - PIN 144
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MC9S12HZ64, MC9S12HN64 - PIN 80
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MOTOROLA FREESCALE HC908
Connect to adapter 1
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1. Set the AUTO-pin PTC3 automatically detect status PTC3, you do not to need to
connect the black. HIGH-If the logic state of the processor pin is 5V logic. You do
not to need connect the black wire. LOW-pin if the logic state of the processor is a
logical zero 0V .You do not need connect the black wire. IN-requires connecting
the black wire.
2. Configuration MCU.
3. Password you can enter a password to unlock the CPU.
4. Automatic bypass password when reading or programming
5. CUSTOM QUARTZ- feature that is different than the standard quartz.
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6. If you activate this option, you have to connect the green wire in quartz. There is
no need disconnect the original quartz. This option is worth to use if it is a custom
quartz, or if it is not detected automatically connect . MCU QFP64 - OSC1- 59PIN
CPU-conect green, PLC52-OSC1- 3PIN connect green .
7. Write slow mode- write slowly .
8. If you set a custom quartz (5) that we need to set the condition is a logical pin
PTC3 processor (or if we measure a HIGH- 5V or LOW-0V) and then do not need
connect the wire black.
9. Speed comunicate with MCU ( depended of quartz ), depending how it is
appropriate communication speed. Set to AUTO program itself will recognize it
automatically.
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MC68HC(9)08AB32, MC68HC(9)08AB16A, MC68HC(9)08AS20, MC68HC(9)08AS20A,
MC68HC(9)08AS60, MC68HC(9)08AS60A, MC68HC(9)08AZ32, MC68HC(9)08AZ32A,
MC68HC(9)08AZ60, MC68HC(9)08AZ60A
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MC68HC(9)08AB32, MC68HC(9)08AB16A , MC68HC(9)08AS20, MC68HC(9)08AS20A,
MC68HC(9)08AS60, MC68HC(9)08AS60A
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PAMIĘCI: M35080, M35080-3,M35080-6,
M35080V6,M35080VP, D80D0WQ
MEMORY SPI: M35080, M35080-3, M35080-6, M35080V6, M35080VP,
D80D0WQ, 160D0WQ
SPI
PIN 1
X
PIN 2
X
PIN 3
X
PIN 4
X
PIN 5
PIN 6
X
PIN 7
X
PIN 8
X
1). READING EEPROM .
2).VERIFY MEMORY.
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3).WRITE MEMORY.
4).WRITE CHANGE.
5). ERASE MEMORY . BEFORE IF YOU USE DO NOT FORGET READ MEMORY AND
MAKE BACKUP.
6).STOP 1-6.
7).T IME AFTER WHICH TURN ON TO MEMORY READ
8). ZONE PROTECT MEMORY.
9). ENABLING STRONGER PULL-UP RESISTORS TO +.
10). READING SECURITY LOG MEMORY.
11). WRITE MEMORY PROTECTION REGISTER.
12). TURN ON PIN TO PULL-UP RESISTOR TO +.
NOTE! You must remember to make a copy of the memory before using
erase function 5 .
CONNECT ADAPTER 1 OR ADAPTER 2 : PLUG 1, PLUG 2, PLUG3
PLUG1: Clip K1-SOIC8, K2-DIP8, K3-SOIC14, K4-WIRES:
1-BLACK
2-WHITE
3-GREY
4-VIOLET
5-BLUE
6-GREEN
7-YELOW
8-ORANGE
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9). MOTOROLA FREESCALE 68HC11
MC68HC11A1, MC68HC11A8, MC68HC11E1,
MC68HC811E2, MC68HC11E9, MC68HC11E20 PLCC52
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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MC68HC11A8, MC68HC11E1, MC68HC811E2,
MC68HC11E9, MC68HC11E20 -QFP64
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
QUARTZ (OSCILLATOR) - 31, 33 PINS
CLICK - R0016
<BACK TO CONTENTS>
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MC68HC11EA9 (0D46J, 1D47J, 2D47J) -PLCC52
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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MC68HC11E9, MC68HC11E20 - QFP52
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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MC68HC11A1,MC68HC11A8, MC68HC11E1,
MC68HC811E2, MC68HC11E9, MC68HC11E20
- DIP48
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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MC68HC11E9, MC68HC11E20 - SDIP56
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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MC68HC11K4 - QFP80
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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MC68HC11K4 - PLCC84
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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MC68HC11KA2, MC68HC11KA4
- PLCC68
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016 <BACK TO CONTENTS>
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MC68HC11KA2, MC68HC11KA4 - QFP64
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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MC68HC11KS2, MC68HC11KS4, MC68HC11KS8
- PLCC68
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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MC68HC11KS2, MC68HC11KS4, MC68HC11KS8
- LQFP80
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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MC68HC11P2 ( 3E74J,1E53M,0G10V ) - PLCC84
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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MC68HC11PA8 - QFP64
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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MC68HC11PH8 (3D64J, 0H30R) - PLCC84
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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MC68HC11PH8 - TQFP112
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
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Strona 51
MC68HC11KG4 - TQFP100
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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Strona 52
MC68HC11F1- PLCC68
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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Strona 53
MC68HC11F1- QFP80
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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Strona 54
MC68HC11L6- QFP64
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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Strona 55
MC68HC11L6- PLCC68
SIGNAL LEVEL
MOD A MOD B
0
0
RXD
GND
TXD
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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Strona 56
MC68HC11KW1 -TQFP 100
SIGNAL LEVEL
MOD A MOD B
0
0
PB0
GND
PB1
PC3
RESET
VCC 5V
0/1
0
0/1
0
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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Strona 57
MC68HC05/705
ATTENTION: IRQ PINS HAVE HI VOLTAGE WHO CAN DAMAGE CIRCUIT.
IF YOU ARE NOT SURE THAT YOU CAN’T DAMAGE CIRCUIT , YOU MUST
DISCONNECT THIS MCU PIN FROM CIRCUIT.
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Strona 58
CONNECTIONS MCU :
MC68HC05E6
MC68HC705E6
MC68HC05P3
MC68HC705P3
MC68HC05L28
MC68HC05B4
MC68HC05B6
MC68HC05B8
MC68HC05B16
MC68HC05B32
MC68HC705B4
MC68HC705B6
MC68HC705B8
MC68HC705B16
MC68HC705B32
MC68HC705X16
MC68HC705X32
MC68HC05H12
MC68HC705H12
SOIC28
SOIC28
SOIC28
SOIC28
SDIP52
QFP44
QFP44
PLCC52
QFP64
PLCC52
QFP64
QFP64
PLCC52
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Strona 59
MC68HC05E6 -SOIC28
SIGNAL LEVEL
IRQ
PC2,LVI
-
PB0
GND
PB1
PC3
RESET
VCC 5V
9V
1
-
0/1
0
0/1
0
0/1
5V
CLICK - R0005
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Strona 60
SIGNAL LEVEL
IRQ
PC2
9V
1
-
PB0
GND
PB1
PC3,PC4
RESET
VCC 5V
0/1
0
0/1
0
0/1
5V
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Strona 61
SIGNAL LEVEL
IRQ
PC2
9V
1
-
PB0
GND
PB1
PC3
RESET
VCC 5V
0/1
0
0/1
0
0/1
5V
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Strona 62
SIGNAL LEVEL
IRQ
PC2
9V
1
-
PB0
GND
PB1
PC3,PC4
RESET
VCC 5V
0/1
0
0/1
0
0/1
5V
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Strona 63
SIGNAL LEVEL
IRQ
PA3
9V
1
-
PA0
GND
PB1
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
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Strona 64
SIGNAL LEVEL
IRQ
PC2
9V
1
-
PB0
GND
PB1
PC3
RESET
VCC 5V
0/1
0
0/1
0
0/1
5V
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Strona 65
SIGNAL LEVEL
IRQ
PB3,PB6
PB2
PA0
GND
PA1
-
RESET
VCC 5V
9V
1
1
0/1
0
0/1
-
0/1
5V
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Strona 66
SIGNAL LEVEL
IRQ
PD3
TCAP1
RDI
GND
TDO
PD4
RESET
VCC 5V
9V
1
1
0/1
0
0/1
0
0/1
5V
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Strona 67
SIGNAL LEVEL
IRQ
PD3
TCAP1
RDI
GND
TDO
PD4
RESET
VCC 5V
9V
1
1
0/1
0
0/1
0
0/1
5V
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Strona 68
SIGNAL LEVEL
IRQ
9V
PD3,PD4 TCAP1
1
1
RDI
GND
TDO
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
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Strona 69
SIGNAL LEVEL
IRQ
9V
PD3,PD4 TCAP1
1
1
RDI
GND
TDO
-
RESET
VCC 5V
0/1
0
0/1
-
0/1
5V
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Strona 70
SIGNAL LEVEL
IRQ
9V
PD3,PD4 TCAP1
1
1
RDI
GND
TDO
TCAP2
0/1
0
0/1
0
RESET VCC 5V
0/1
5V
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Strona 71
MC68HC05H12 -PLCC52
SIGNAL LEVEL
IRQ
PB2
PB3
PB0
GND
PB1
-
RESET
VCC 5V
9V
1
1
0/1
0
0/1
-
0/1
5V
CLICK - R0005
<BACK TO CONTENTS>
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Strona 72
NSC CR16 - QFP80
CR16HCS5, CR16HCS9, CR16HCT5, CR16HCT9, CR16MCS5, CR16MCS9,
CR16MCT5, CR16MCT9, CR16MES5, CR16MES9, CR16MFS5, CR16MFS9
SIGNAL LEVEL
ENV0
-
RXD
GND
TXD
-
RESET
VCC 5V
0/1
-
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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Strona 73
CR16 - PLCC44
CR16HCS5, CR16HCS9, CR16HCT5, CR16HCT9, CR16MCS5, CR16MCS9,
CR16MCT5, CR16MCT9, CR16MES5, CR16MES9, CR16MFS5, CR16MFS9
SIGNAL LEVEL
ENV0
-
RXD
GND
TXD
-
RESET
VCC 5V
0/1
-
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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Strona 74
MAC
MAC7241,MAC7242 100PIN-LQFP
SIGNAL LEVEL
TMS
TDI
TDO
GND
TCK
-
RESET
VCC 5V
0/1
0/1
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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Strona 75
MAC7241,MAC7242 144PIN-LQFP
SIGNAL LEVEL
TMS
TDI
TDO
GND
TCK
-
RESET
VCC 5V
0/1
0/1
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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Strona 76
ST6240-QFP80
SIGNAL LEVEL
PA7
OSCin
TEST
GND
PA6
PA5
RESET
VCC 5V
1
0/1
1
0
0/1
0/1
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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Strona 77
ST6245-QFP52
SIGNAL LEVEL
PA7
OSCin
TEST
GND
PA6
PA5
RESET
VCC 5V
1
0/1
1
0
0/1
0/1
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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Strona 78
ST6249-QFP68
SIGNAL LEVEL
PA7
OSCin
TEST,PIN26
GND
PA6
PA5
RESET
VCC
5V
1
0/1
1
0
0/1
0/1
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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Strona 79
SPC
100PIN-LQFP
SIGNAL LEVEL
TMS
TDI
TDO
GND
TCK
-
RESET
VCC 5V
0/1
0/1
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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Strona 80
144PIN-LQFP
SIGNAL LEVEL
TMS
TDI
TDO
GND
TCK
-
RESET
VCC 5V
0/1
0/1
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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Strona 81
INFINEON - LQFP64
SAK-XC2331B-24, SAK-XC2331B-40, SAK-XC2333B-24, SAK-XC2333B-40,
SAK-XC2334B-24, SAK-XC2335B-24, SAK-XC2335B-40, SAK-XC2336B-24, SAKXC2336B-40,
SIGNAL LEVEL
P10.0,P10.02
P10.1
RXD
GND
0/1
0/1
0/1
0
TXD
TRST
RESET
VCC
5V
0/1 0/1
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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Strona 82
INFINEON - LQFP100
SAH-XC2365A-72, SAH-XC2365A-104, SAH-XC2060M-104, SAK-XC2060N-40
SIGNAL LEVEL
P10.0,P10.02
P10.1
RXD
GND
0/1
0/1
0/1
0
TXD
TRST
RESET
VCC
5V
0/1 0/1
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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Strona 83
RENESAS H8SX - LQFP100 (UART)
R5F61721, R5F6173, R5F6175
SIGNAL LEVEL
MD0
MD1
RXD
GND
TXD
-
RESET
VCC 5V
0/1
1
0/1
0
0/1
-
0/1
5V
CLICK - R0016
<BACK TO CONTENTS>
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Strona 84
RENESAS V850 - LQFP64 (UART)
METODA 1 - METHOD 1 ( UART )
UPD70F3370A, UPD70F3371M
SIGNAL LEVEL
FLMD0
-
RXD
VSS
TXD
-
RESET
VDD
1
-
0/1
0
0/1
-
0/1
5V
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Strona 85
RENESAS V850 - LQFP64 (CSI-SPI)
METODA 2 - METHOD 2 (CSI-SPI )
UPD70F3370A, UPD70F3371M
SIGNAL LEVEL
FLMD0
SCKB0
RXD
VSS
TXD
-
RESET
VDD
1
0/1
0/1
0
0/1
-
0/1
5V
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Strona 86
μPD70F3372M, μPD70F3373M, μPD70F3735, μPD70F3736
SIGNAL LEVEL
FLMD0
-
RXD
VSS
TXD
-
RESET
VDD
1
-
0/1
0
0/1
-
0/1
5V
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Strona 87
METODA 2 - METHOD 2 ( CSI-SPI )
μPD70F3372M, μPD70F3373M, μPD70F3735, μPD70F3736
SIGNAL LEVEL
FLMD0
SCKB0
RXD
VSS
TXD
-
RESET
VDD
1
0/1
0/1
0
0/1
-
0/1
5V
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Strona 88
UPD70F3374, UPD70F3375, UPD70F3376A, UPD70F3377A, UPD70F3739,
UPD70F3740, UPD70F3741, UPD70F3742, UPD70F3794, UPD70F3795,
UPD70F3796
SIGNAL LEVEL
FLMD0
-
RXD
VSS
TXD
-
RESET
VDD
1
-
0/1
0
0/1
-
0/1
5V
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Strona 89
UPD70F3374, UPD70F3375, UPD70F3376A, UPD70F3377A, UPD70F3739,
UPD70F3740, UPD70F3741, UPD70F3742, UPD70F3794, UPD70F3795,
UPD70F3796
SIGNAL LEVEL
FLMD0
SCKB0
RXD
VSS
TXD
-
RESET
VDD
1
0/1
0/1
0
0/1
-
0/1
5V
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Strona 90
RENESAS V850 - LQFP144(UART)
μPD70F3378M, μPD70F3379M, μPD70F3380M, μPD70F3381M, μPD70F3382M,
μPD70F3743, μPD70F3744, μPD70F3745, μPD70F3746
SIGNAL LEVEL
FLMD0
-
RXD
VSS
TXD
-
RESET
VDD
1
-
0/1
0
0/1
-
0/1
5V
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Strona 91
μPD70F3378M, μPD70F3379M, μPD70F3380M, μPD70F3381M,
μPD70F3382M, μPD70F3743, μPD70F3744, μPD70F3745,
μPD70F3746
SIGNAL LEVEL
FLMD0
SCKB0
RXD
VSS
TXD
-
RESET
VDD
1
0/1
0/1
0
0/1
-
0/1
5V
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Strona 92
UPD70F3383M, UPD70F3384M, UPD70F3385M, UPD76F0115
SIGNAL LEVEL
FLMD0
-
RXD
VSS
TXD
-
RESET
VDD
1
-
0/1
0
0/1
-
0/1
5V
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Strona 93
UPD70F3383M, UPD70F3384M, UPD70F3385M, UPD76F0115
SIGNAL LEVEL
FLMD0
SCKB0
RXD
VSS
TXD
-
RESET
VDD
1
0/1
0/1
0
0/1
-
0/1
5V
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Strona 94

signal level

Transcription

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