background image

UMAC-CPCI 

Turbo

 CPU B

o

a

rd

 Ha

rd

w

a

re Reference Ma

nua

l

 

Schem

a

tics 

23 

SCHEM

A

TICS 

BA09_A

BA03

BA11

MainCTS

TP7

SIRQ-

RP12A

1KSIP6I

1

2

+

$000000-$00FFFF Firmware (64K)

GUARD BAND

GND

GND

BA08

J4

DB9F

5

9

4

8

3

7

2

6

1

10

+3P3V

GND

GND

A14

BA05_A

CTS-

TXD

RP11D

3.3KSIP8I

7

8

C104

.1UF

D6

MMBD301LT1

1

3

MainTXD-

MainRXD-

R_SERVO-

IRQB-

PHASE-

OF DELTA TAU DATA SYSTEMS INC.  ALL RIGHTS TO DESIGNS AND

PWR

SHEET2

625-0SH2

+3P3V

F1ER

PHA

SIRQ-

BSA01

IPOS

X/Y:$078000-$0780FF

+5V

MainCTS

AuxCTS

EXTAL

MainRxD-

MEMCS0-

CS4-

C94

22pf

C111

.1UF

E18

HREQ-

IRQB-

MainRxD-

A5

BA10

R_SERVO-

MODE

BWR-

GND

BA02

DPRCS0-

BA09

C93

22pf

CS14-

C95

.1UF

U4F

74ACT14

(SO14)

13

12

DATA SYSTEMS INC. AND IS LOANED SUBJECT TO RETURN UPON

ispEN-

603625-322A

-

UMAC-CPCI-CPU, DSP56309 CPU SECTI

O

Delta Tau Data Systems, Inc.

D

13

Monday, January 14, 2002

Title

Size

Document Number

Rev

Date:

Sheet

of

+3P3V

BA07_A

MODE

BSA00

U33D

74ACT14

(SO14)

9

8

C1

.1UF

GND

BA12

BRXD

BFUL

CS1-

BSA02

RP12B

1KSIP6I

3

4

R6

1K

C23

.1UF

MainDTR

BA07

BA12_A

MODD/IRQD-

WDO

E1A

2

3

1

C2

.1UF

DEMAND.  TITLE TO THIS DOCUMENT IS NEVER SOLD OR 

+5V

GND

RXD

422_RD-

+3P3V

A2

BA09_A

WR-

IOCS_A-

$050000-$0BFFFF Plcc Extended Memory Option (448K)

RTS-

RESET

U7

74LCX16245

(TSSOP48)

2

3

5

6

8

9

11

12

46

44

43

41

40

38

37

36

1

4

7

10

47

48

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

33

34

35

39

42

45

B0

B1

B2

B3

B4

B5

B6

B7

A1

A2

A3

A4

A5

A6

A7

A8

T/R1

GND

VCC

GND

A0

OE1

B8

B9

GND

B10

B11

VCC

B12

B13

GND

B14

B15

T/R2

OE2

A15

A14

GND

A13

A12

VCC

A11

A10

GND

A9

GND

VCC

GND

JUMP 1 TO 2 TO DIS PHASE,SERVO,INIT ON `J2'

BA00

AuxRTS

U38C

74ACT08

(SO14)

9

10

8

+

C39

10UF

16V

(TANT)

DE-

CARD0

TXD

WAIT1-

CS14-

C88

.1UF

U3

DS1231S

(SOL16)

1

2

3

4

5

6

7

8

16

15

14

13

12

11

10

9

N.C.

IN

N.C.

MODE

N.C.

TOL

N.C.

GND

N.C.

VCC

N.C.

NMI

N.C.

RST

N.C.

RST

C103

.1UF

X/Y:$078800-$0789FF

E1B 2 TO 1  ON  = ENABLE  `PHASE & SERVO' FROM `P2'

BA00

RESET-

WDO

BSA01

SRD0

IOCS-

PWRG

C35

.01UF

RP10C

3.3KSIP8I

5

6

U33C

74ACT14

(SO14)

5

6

U33F

74ACT14

(SO14)

13

12

J5

HEADER14_NO8

1

2

3

4

5

6

7

9

10

11

12

13

14

C102

.1UF

C150

.1UF

ABOVE AGREEMENT.

GND

BA01

BA13_A

DE-

BPHA

BSC11

RP13

3.3KSIP10C

1








9

10

OF DELTA TAU DATA SYSTEMS INC.  ALL RIGHTS TO DESIGNS AND

+3P3V

GND

422_CS-

C40

.1UF

U4D

74ACT14

(SO14)

9

8

TSO

+3P3V

CS16-

EROR

E1B

2

3

1

E17

2

3

1

E1A 2 TO 1 = ENABLE  `CARD0'

BWR-

SERVO+

CS2-

RP3A

3.3K

2

1

C22

.1UF

X/Y:$068000-$06FFFF EXTENDED MEMORY OFF_BOARD (32K)

BA08

CS2-

CS4-

BA15

FLASHCS-

C32

.1UF

CARD0

TRST-

RP2C

RX

5

6

TO LOAD

A10

BA14_A

MainTxD-

C105

.1UF

D4

MMBD301LT1

1

3

TSI

+5V

BA11

AuxRxD-

BA06_A

CS10-

C100

.1UF

C25

.1UF

SCLK

+3P3V

BA11_A

WAIT1-

422_CS-

A11

C21

.01UF

RP20

3.3KSIP10C

1

2

3

4

5

6

7

8

9

10

THIS DOCUMENT IS THE CONFIDENTIAL PROPERTY OF DELTA TAU

JUMP 2 TO 3 TO ENA PHASE,SERVO,INIT ON `J2'

MEMCS1-

422_SD-

BA01

CS3-

BCTS-

R5

1K

C101

.1UF

X/Y:$074000-$077FFF

+5V

+5V

Vout

A6

RESET

J6

HSIP8NO5

1

2

3

4

6

7

8

E18

2

3

1

GND

+5V

IOCS_A-

BA11_A

ENA_P1-

WR-

+

C14

10UF

16V

(TANT)

RP2A

RX

1

2

U33B

74ACT14

(SO14)

3

4

SDO

X/Y:$078D00-$078DFF

+5V

EROR

CS02-

BRD-

A17

CS12-

Vbat

U4B

74ACT14

(SO14)

3

4

INVENTIONS ARE RESERVED BY DELTA TAU DATA SYSTEMS INC.

+5V

BA12_A

CS16-

VMECS0-

Vout

C87

.1UF

BA09

PRAMCS-

BPHA

GND

MainTxD-

BA05

BA05

422_SD-

ENA422

U28

MAX3232ECWE

(SOL16)

2

1

3

11

12

10

9

16

6

4

5

14

13

7

8

15

+V

C1+

C1-

TXD

RXD

RTS

CTS

VCC

V-

C2+

C2-

TXD

RXD

RTS

CTS

VSS

GND

TA-

CTS-

MainRTS

+3P3V

+3P3V

CS3-

AuxCTS

19.6608Mhz

MainTxD-

RP10B

3.3KSIP8I

3

4

BRD-

CTS-

C106

.1UF

R15

15K

J5

X/Y:$078E00-$078EFF

BA04

BA13_A

RTS-

RXD

POSSESSION OF THIS DOCUMENT INDICATES ACCEPTANCE OF THE

E1B 2 TO 3  ON  = ENABLE  `PHASE & SERVO' FROM `P1'

NOTE:

RP11C

3.3KSIP8I

5

6

SOT23

Q5

2N7002

(SOT23)

3

1

2

TRST-

BA14_A

BA11

BA05_A

ENA_P1-

CS12-

A15

R14

15K

U8

74LCX16245

(TSSOP48)

2

3

5

6

8

9

11

12

46

44

43

41

40

38

37

36

1

4

7

10

47

48

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

33

34

35

39

42

45

B0

B1

B2

B3

B4

B5

B6

B7

A1

A2

A3

A4

A5

A6

A7

A8

T/R1

GND

VCC

GND

A0

OE1

B8

B9

GND

B10

B11

VCC

B12

B13

GND

B14

B15

T/R2

OE2

A15

A14

GND

A13

A12

VCC

A11

A10

GND

A9

GND

VCC

GND

RP25

1KSIP10C

1








9

10

SOCKET REQ'D

BHA1

U4C

74ACT14

(SO14)

5

6

RP3D

3.3K

5

1

TRANSFERRED FOR ANY REASON.  THIS DOCUMENT IS TO BE USED

RESET-

BX/Y

TDI

R7

100

E1B EMPTY = ENABLE `PHASE & SERVO' FROM `J12/J12A'

|625-0SH2.sch

A13

CTS-

NMI-

CPURST-

SERVO+

TCK

RP1A

3.3K

2

1

C96

.1UF

DEMAND.  TITLE TO THIS DOCUMENT IS NEVER SOLD OR 

E1A 2 TO 3 = DISABLE `CARD0'

RXD

RESET

C92

.1UF

(jisp)

X/Y:$078F00-$078FFF

+3P3V

RP15

33SIP8I

1

2

3

4

5

6

7

8

C151

.1UF

CS06-

AuxRxD-

MEMCS1-

HREQ-

RP12C

1KSIP6I

5

6

D1

LED

RED

N.C.

CS1-

ENA422

U34

PI74FCT245TL

(TSSOP20)

2

3

4

5

6

7

8

9

1

19

18

17

16

15

14

13

12

11

20

10

A0

A1

A2

A3

A4

A5

A6

A7

T/R

OE

B0

B1

B2

B3

B4

B5

B6

B7

VCC

GND

MODE

BSCK1

R1

10

A15

BSER

RESET-

U2

MAX795SCSE

(SO8)

2

7

1

3

4

5

6

8

VCC

RST

VOUT

ON

GND

CEI

CEO

BATT

BA06_A

A3

BSER

U30

MC3486D

(SO16)

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

IN-A

IN-A

OUT-A

EN-A,C

OUT-C

IN-C

IB-C

GND

IN-D

IN-D

OUT-D

EN-B,D

OUT-B

IN-B

IN-B

VCC

INVENTIONS ARE RESERVED BY DELTA TAU DATA SYSTEMS INC.

GND

X/Y:$060000-$067FFF EXTENDED MEMORY ON_BOARD  (32K)

GND

BA15

PRDY

SER

BBRAMCS-

RP3E

3.3K

6

1

GND

SERVO+

PHASE+

TDO

X/Y:$078A00-$078AFF

RP11A

3.3KSIP8I

1

2

U51

PI74FCT16245ATA

(TSSOP48)

2

3

5

6

8

9

11

12

46

44

43

41

40

38

37

36

1

4

7

10

47

48

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

33

34

35

39

42

45

B0

B1

B2

B3

B4

B5

B6

B7

A1

A2

A3

A4

A5

A6

A7

A8

T/R1

GND

VCC

GND

A0

OE1

B8

B9

GND

B10

B11

VCC

B12

B13

GND

B14

B15

T/R2

OE2

A15

A14

GND

A13

A12

VCC

A11

A10

GND

A9

GND

VCC

GND

U27

74LCX245

(TSSOP20)

2

3

4

5

6

7

8

9

1

19

18

17

16

15

14

13

12

11

20

10

A0

A1

A2

A3

A4

A5

A6

A7

T/R

OE

B0

B1

B2

B3

B4

B5

B6

B7

VCC

GND

JUMP 2 TO 3 TO ENABLE "RS422" TRANSCEIVER

+3P3V

C27

.1UF

C86

.1UF

C153

.1UF

`isp' PART

SERVO+

CS04-

+3P3V

BA05

BA07

BA08_A

RP4

3.3KSIP10C

1

2

3

4

5

6

7

8

9

10

X/Y:$078400-$0787FF

BA12

SERVO-

POSSESSION OF THIS DOCUMENT INDICATES ACCEPTANCE OF THE

GND

+3.3V

BA12

CS00-

BHREQ-

C26

.1UF

X/Y:$078100-$0781FF

BA10

PWRG

R_PHASE-

U43

MAX3100CEE

(QSOP)

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

DIN

DOUT

SCLK

CS

N.C.

IRQ

SHDN

GND

X2

X1

CTS

N.C.

RTS

RX

TX

VCC

SDI

+3P3V

GND

A8

BA09

ENA_P2-

PHA

GND

GND

BA02

BA15

SERVO-

SOT23

Q4

2N7002

(SOT23)

3

1

2

(JTAG/OnCE)

MainCTS

+5V

GND

SER

STD0

OSC_OUT

CS06-

PHA_A

PHASE

BT1

3.6V BAT

U9

NC7SZ00

(SOT23-5)

1

2

4

5

3

SHEET3

625-0SH3

+5V

BA14

RXD

D3

MMBD301LT1

1

3

E19

2

1

CS10-

PHASE-

SERVO-

INIT-

C17

.01FARAD

FM0H103Z

NEC

RESET

BA14

E0

2

1

C98

.1UF

X/Y:$078300-$0783FF

SCK0

BA06

BA10

MainRTS

ISPEN-

D2

LED

GRN

U33A

74ACT14

(SO14)

1

2

SERVO

RST-

PHASE-

PHASE+

BSC12

BFUL

RP11B

3.3KSIP8I

3

4

R10

1K

RP1D

3.3K

5

1

GND

GND

GND

BA03

IPOS

422_RS-

RESET-

WAIT2-

U31

MC75174BDW

(SOL20)

1

2

3

4

5

6

7

8

13

14

15

16

17

18

19

20

9

10

12

11

IN-A

OUT-A

N.C.

OUT-A

EN-A,C

OUT-C

N.C.

OUT-C

N.C.

OUT-D

EN-B,D

OUT-B

N.C.

OUT-B

IN-B

VCC

IN-C

GND

OUT-D

IN-D

Q3

MMBT3906LT1

(SOT23)

1

2

3

GND

GND

GND

+5V

BA13

CS00-

A0

A4

RTS-

CS0-

TCK

D5

MMBD301LT1

1

3

U50

NC7SZ08M5

(SOT23-5)

1

2

4

5

3

ONLY PURSUANT TO WRITTEN LICENSE OR WRITTEN INSTRUCTIONS

N.C.

+3P3V

INIT-

BA04

A19X/YP

BA10_A

DRAMCS-

A16

WAIT1-

RESET_A

RP14

3.3KSIP10C

1

2

3

4

5

6

7

8

9

10

X/Y:$078C00-$078CFF

CS0-

MEMCS0-

$050000-$05FFFF Plcc Standard Memory Option (64K)

|625-0SH3.sch

RESET_A

422_RD-

SC02

WR-

BA07_A

422_RS-

BA15

R3

10K

J4

DRAMCS-

IOCS_B-

BA14

U4E

74ACT14

(SO14)

11

10

+3.3V

J6

BA06

BA10

BSRD1

U6B

TURBO-DECODE5

ispLSI2032E-135LT48

(TQFP48)

20

21

22

23

26

2

27

28

33

34

35

37

13

14

15

16

25

44

47

18

6

42

30

45

41

40

38

46

7

29

1

31

9

10

11

19

8

4

17

3

48

24

12

36

39

32

5

43

CS0

CS1

CS2

CS3

CS02

IOCS

CS04

CS06

CS10

CS12

CS14

CS16

A8

A9

A10

A11

CS00

CS4

IOCS_B

GND

VCC

GND

VCC

CPURST-

VMECS1

VMECS0

DPRCS0

IOCS_A

BSCAN

TCK

A14

RESET

FLASHCS

DRAMCS

PRAMCS

TDO/A17

TDI/A16

RD

A15

WR

VCCIO

VCCIO

GND

GND

DPRCS1

TMS

N.C.

N.C.

U4A

74ACT14

(SO14)

1

2

+

C34

1UF

35V

tant

+3P3V

R_PHASE-

A9

BA08

MainDSR

ISPEN-

MainRTS

CPURST-

C16

.1UF

$040000-$0403FF User Written Phase (1K)

+3P3V

BA06

BA14

JUMP `E0'

GND

A1

IOCS_B-

RP10D

3.3KSIP8I

7

8

Q1

MMBT3906LT1

(SOT23)

1

2

3

GUARD BAND

(JRS232)

MainRTS

BA09

BBRCS-

GND

BSTD1

U38A

74ACT08

(SO14)

1

2

3

E1B 2 TO 1  OFF = DISABLE `PHASE & SERVO' FROM `P2'

ENA_P2-

BA07

E17

PHASE

RD-

X/Y:$070000-$073FFF

Front Panel

PWRGUD

RXEN-

C24

.1UF

ONLY PURSUANT TO WRITTEN LICENSE OR WRITTEN INSTRUCTIONS

$040400-$040BFF User Written Servo (2K)

+3P3V

AuxTxD-

A7

BRD-

WDTC

R2

1K

C152

.1UF

X/Y:$078200-$0782FF

"Vbat" s/b 30mil trace

VMECS0-

BA11

A17

BA13

RESET

JUMP 1 TO 2 TO ENABLE "RS232" TRANSCEIVER

BA08

HACK-

C113

.1UF

PRAM MEMORY P:

+5V

CS04-

PRAMCS-

ENA422

PHASE+

BHA2

T/R-

DPRCS0-

TXD

RP1E

3.3K

6

1

+5V

BBRCS-

IRQB-

C15

.1UF

BWR-

PHASE+

SOT23

Q2

2N7002

(SOT23)

3

1

2

RT. angle through

WAIT2-

BSA00

CS02-

MainRxD-

PHASE-

BTXD

Y2

ECS-36-20-5P

3.6864Mhz

+5V

MainCTS

RESET-

C97

.1UF

C36

.1UF

A12

WAIT2-

SER_A

HACK-

DATA SYSTEMS INC. AND IS LOANED SUBJECT TO RETURN UPON

GND

PRDY

NMI-

BHACK-

SERVO-

U29

LTC1384CS

(SOL18)

3

2

4

12

13

11

10

17

7

5

6

15

14

8

9

16

1

18

+V

C1+

C1-

TXD

RXD

RTS

CTS

VCC

V-

C2+

C2-

TXD

RXD

RTS

CTS

VSS

RXEN

TXEN

TMS

N.C.

|Link

GND

+5V

AuxTxD-

BA13

ISPEN-

U33E

74ACT14

(SO14)

11

10

WD

GND

TMS

PWRGUD

F1ER

U38B

74ACT08

(SO14)

4

5

6

BA08_A

OSC_OUT

TRANSFERRED FOR ANY REASON.  THIS DOCUMENT IS TO BE USED

N.C.

X/Y:$078B00-$078BFF

+3P3V

BHA0

BRTS-

RP10A

3.3KSIP8I

1

2

E1B 2 TO 3  OFF = DISABLE `PHASE & SERVO' FROM `P1'

BA10_A

BSA02

AuxRTS

R4

100K

CHGND

BX/Y

19.6608Mhz

FLASHCS-

SERVO

TRST-

C99

.1UF

THIS DOCUMENT IS THE CONFIDENTIAL PROPERTY OF DELTA TAU

ABOVE AGREEMENT.

 

Summary of Contents for TURBO 4AX-603625-XUXX

Page 1: ...UMAC CPCI Turbo CPU Board 3 Turbo CPU Board 4 4Ax 603625 xUxx 5 January 28 2003 Single Source Machine Control Power Flexibility Ease of Use 21314 Lassen Street Chatsworth CA 91311 Tel 818 998 2095 Fax...

Page 2: ...amplifiers contain static sensitive components that can be damaged by incorrect handling When installing or handling Delta Tau Data Systems Inc products avoid contact with highly insulated materials...

Page 3: ...ly Check Select Jumper 6 Reset Lock Jumper 6 CONNECTIONS 7 Compact UBUS Connector 7 Rear Field Wiring Connector 7 Front Panel RS 232 Connector 7 Stack Connectors to Bridge Board 7 Factory Use Connecto...

Page 4: ...U Board J2 Connector 18 J4 RS 232 Serial Port Connector 19 ACCESSORIES 21 ACC Cx Compact UBUS Backplane Boards 21 ACC 8CR Test Breakout Board 21 ACC 11C Sinking I O Board 21 ACC 24C2 PWM Axis Board 22...

Page 5: ...other Turbo PMAC2 controllers Note that a Compact PCI interface does not automatically come with a UMAC CPCI system nor is one necessary to communicate to the system given the other possible communica...

Page 6: ...cribes the hardware features and provides setup instructions You will need other manuals as well to use your UMAC CPCI system Each accessory to the UMAC CPCI Turbo CPU board has its own manual describ...

Page 7: ...in the rightmost slot of the Compact PCI bus backplane Option 2 Dual Ported RAM With either the Option 1 Ethernet interface or the Option 1A USB interface communications throughput can be increased th...

Page 8: ...flash memory Setup variable I52 should be set and saved at 9 for 100 MHz operation Option 8 High Accuracy Clock Crystal The UMAC CPCI Turbo CPU board has a clock crystal component Y1 of nominal frequ...

Page 9: ...umper Jumper E19 should be OFF for normal operation leaving the watchdog timer circuit active and prepared to shut down the card in case of a severe problem Putting jumper E19 ON disables the watchdog...

Page 10: ...possible settings of these three jumpers provide eight banks for the firmware A standard production version of the UMAC CPCI Turbo CPU board is shipped with firmware loaded only in the bank selected b...

Page 11: ...is installed behind the backplane The J2 connector contains the signals for the main serial port either RS 232 or RS 422 levels the optional auxiliary RS 232 serial port the optional USB port and the...

Page 12: ...CI Turbo CPU Board Hardware Reference Manual Connections 8 Factory Use Connectors There are several connectors on the interior of the board for factory setup and diagnostic use These are not for custo...

Page 13: ...rence Manual Board Layout 9 BOARD LAYOUT This diagram of the UMAC CPCI Turbo CPU board shows the locations of the jumpers and connectors Detailed information about each of the jumpers and connectors f...

Page 14: ...UMAC CPCI Turbo CPU Board Hardware Reference Manual 10 Board Layout...

Page 15: ...internally generated servo and phase clock signals and to output these signals on the field wiring connector on the CPU board E1B should connect pins 2 and 3 or be removed Jump pins 2 and 3 for the U...

Page 16: ...sical Layout Location Description Default E11 Jump E11 pin 1 to 2 to include the 12V and 12V analog supplies from the J1 backplane connector in the power supply check circuit inhibiting outputs if the...

Page 17: ...0 To load active memory from flash IC on power up reset Remove jumper E20 Jump E21 pin 1 to 2 Jump E22 pin 1 to 2 Other combinations are for factory use only the board will not operate in any other co...

Page 18: ...int Physical Layout Location Description Default B 1 Note This jumper is set at the factory and possibly hard soldered Users should not change this jumper Jump pin 1 to 2 to select 3 3V supply for fla...

Page 19: ...nector J6 JISP for factory use only 8 pin SIP connector J10 JISP_B for factory use only 8 pin SIP connector J11 First component side stack connector to CPCI bridge board J11A First solder side stack c...

Page 20: ...UMAC CPCI Turbo CPU Board Hardware Reference Manual 16 Connector Summary...

Page 21: ...ND CS16 GND 3 3V CS14 CS12 GND 9 GND IREQ2 IREQ1 MEMCS1 GND MEMCS0 GND 8 GND PHASE GND SERVO WAIT IREQ3 GND 7 GND PHASE WDO SERVO GND GND 6 GND BA02 GND 3 3V BA01 BA00 GND 5 GND BA04 BA03 RESET GND BX...

Page 22: ...RD SD SD CS CS RS and RS lines are standard RS 422 signals The inputs are only used if jumpers E17 and E18 each connect their pins 2 and 3 4 The SERVO SERVO PHASE and PHASE clock lines are at RS 422...

Page 23: ...Input Receive Data Low TRUE 4 DSR Bidirect Data Set Ready Shorted to DTR 5 GND Common UMAC CPCI Reference 6 DTR Bidirect Data Terminal Ready Shorted to DSR 7 CTS Input Clear to Send High TRUE 8 RTS Ou...

Page 24: ...UMAC CPCI Turbo CPU Board Hardware Reference Manual 20 Connector Pinouts...

Page 25: ...an ACC C8 8 slot backplane board It has a P47 style power connector suitable for a standard 1 slot CPCI format power supply ACC 8CR Test Breakout Board The ACC 8CR board provides a behind the backplan...

Page 26: ...oard The ACC 24C2A analog axis board provides the interface circuitry for 4 axes of control in a single slot with analog interface to the servo drives It also has one pulse and direction output per ax...

Page 27: ...9 18 17 16 15 14 13 12 11 20 10 A0 A1 A2 A3 A4 A5 A6 A7 T R OE B0 B1 B2 B3 B4 B5 B6 B7 VCC GND MODE BSCK1 R1 10 A15 BSER RESET U2 MAX795SCSE SO8 2 7 1 3 4 5 6 8 VCC RST VOUT ON GND CEI CEO BATT BA06_A...

Page 28: ...8 29 30 31 32 33 34 35 39 42 45 B0 B1 B2 B3 B4 B5 B6 B7 A1 A2 A3 A4 A5 A6 A7 A8 T R1 GND VCCB GND A0 OE1 B8 B9 GND B10 B11 VCCB B12 B13 GND B14 B15 T R2 OE2 A15 A14 GND A13 A12 VCCA A11 A10 GND A9 GND...

Page 29: ...54 CPCI B1 B2 B3 B4 B5 B6 B7 B8 B9 B10 B11 B12 B13 B14 B15 B16 B17 B18 B19 B20 B21 B22 B1 B2 B3 B4 B5 B6 B7 B8 B9 B10 B11 B12 B13 B14 B15 B16 B17 B18 B19 B20 B21 B22 U61 NC7SZ00M5 1 2 4 5 3 E4 n c Mai...

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