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of

IRT Electronics Pty

. Ltd.

Drawing No.

CO

PY

RIG

H

T

ARTARM

O

N

 NSW

 AUSTRALIA 2064

N.T

.S.

804900

Rev

ision:

Date:

1

1-F

eb-2005 

T

it

le

MMM-

4230

SIZE

A2

CHECKED

ENG.APR.

DRAW

N

13

C

H

A

_

IN

[8]

C

H

A

_

IN

[9]

IN

A

-

1

IN

A

+

2

A/

!B

3

!BI

S

TEN

4

IN

B

+

28

IN

B

-

27

M

ODE

26

REFCLK

25

RF

5

GND

6

!RDY

7

GND

8

Vccn

9

Qj (RVS)

10

Qh (Q7)

11

Qg (

Q

6

)

12

Qf (

Q

5

)

13

Qe

 (

Q

3

)

15

Qi

 (

Q

4

)

14

Qd

 (

Q

2

)

16

Qc

 (

Q

1

)

17

Qb

 (

Q

0

)

18

Qa (SC/!D)

19

GND

20

Vccq

21

CKR

22

SO

23

Vccq

24

U3

CY7

B

9

3

3

Vc

c

1

Vc

c

2

EOM

3

Vc

c

4

CD

5

AE

C

+

6

AE

C

-

7

!DO

14

DO

13

!M

UTE

12

Ve

e

11

Ve

e

10

!DI

9

DI

8

U2

CL

C0

1

4

R6

75R

R5

75R

D1

BAS3

2

L

+5

V

B

+5

V

B

C4

100pF

R3 120R

C3

0.

1uF

C1

0.

1uF

R2

100R

R1

75R

L1

0.

022uH

Input-1

+5

V

B

+5

V

B

+5

V

B

C

H

A

_

IN

[7]

C

H

A

_

IN

[6]

C

H

A

_

IN

[5]

C

H

A

_

IN

[4]

C

H

A

_

IN

[3]

C

H

A

_

IN

[2]

C

H

A

_

IN

[1]

C

H

A

_

IN

[0]

CHA

_

CKR

CHA

_

REF

_

CLK

CHA

_

P

R

ES

R4

10K

CD1

1

10uF

CD1

2

0.

1uF

CD1

3

0.

1uF

CD1

4

0.

1uF

CHB_

IN

[8

]

CHB_

IN

[9

]

IN

A

-

1

IN

A

+

2

A/

!B

3

!BI

S

TEN

4

IN

B

+

28

IN

B

-

27

M

ODE

26

REFCLK

25

RF

5

GND

6

!RDY

7

GND

8

Vccn

9

Qj (RVS)

10

Qh (Q7)

11

Qg (

Q

6

)

12

Qf (

Q

5

)

13

Qe

 (

Q

3

)

15

Qi

 (

Q

4

)

14

Qd

 (

Q

2

)

16

Qc

 (

Q

1

)

17

Qb

 (

Q

0

)

18

Qa (SC/!D)

19

GND

20

Vccq

21

CKR

22

SO

23

Vccq

24

U5

CY7

B

9

3

3

Vc

c

1

Vc

c

2

EOM

3

Vc

c

4

CD

5

AE

C

+

6

AE

C

-

7

!DO

14

DO

13

!M

UTE

12

Ve

e

11

Ve

e

10

!DI

9

DI

8

U4

CL

C0

1

4

R1

2

75R

R8

75R

D2

BAS3

2

L

+5

V

B

+5

V

B

C1

0

100pF

R1

1

120R

C8

0.

1uF

C9

0.

1uF

R1

0

100R

R1

4

75R

L2

0.

033uH

Input-3

+5

V

B

+5

V

B

+5

V

B

+5

V

B

CHB_

IN

[7

]

CHB_

IN

[6

]

CHB_

IN

[5

]

CHB_

IN

[4

]

CHB_

IN

[3

]

CHB_

IN

[2

]

CHB_

IN

[1

]

CHB_

IN

[0

]

CHB_

CKR

CHB_

REF

_

CLK

CHB_

P

R

ES

R6

5

10K

CD2

0

10uF

CD5

7

0.

1uF

CD5

3

0.

1uF

CD5

2

0.

1uF

CHC_

IN

[8

]

CHC_

IN

[9

]

IN

A

-

1

IN

A

+

2

A/

!B

3

!BI

S

TEN

4

IN

B

+

28

IN

B

-

27

M

ODE

26

REFCLK

25

RF

5

GND

6

!RDY

7

GND

8

Vccn

9

Qj (RVS)

10

Qh (Q7)

11

Qg (

Q

6

)

12

Qf (

Q

5

)

13

Qe

 (

Q

3

)

15

Qi

 (

Q

4

)

14

Qd

 (

Q

2

)

16

Qc

 (

Q

1

)

17

Qb

 (

Q

0

)

18

Qa (SC/!D)

19

GND

20

Vccq

21

CKR

22

SO

23

Vccq

24

U7

CY7

B

9

3

3

Vc

c

1

Vc

c

2

EOM

3

Vc

c

4

CD

5

AE

C

+

6

AE

C

-

7

!DO

14

DO

13

!M

UTE

12

Ve

e

11

Ve

e

10

!DI

9

DI

8

U6

CL

C0

1

4

R1

7

75R

R2

1

75R

D3

BAS3

2

L

+5

V

B

+5

V

B

C1

1

100pF

R1

8

120R

C1

3

0.

1uF

C1

2

0.

1uF

R1

9

100R

R1

5

75R

L3

0.

022uH

Input-4

+5

V

B

+5

V

B

+5

V

B

+5

V

B

+5

V

B

CHC_

IN

[7

]

CHC_

IN

[6

]

CHC_

IN

[5

]

CHC_

IN

[4

]

CHC_

IN

[3

]

CHC_

IN

[2

]

CHC_

IN

[1

]

CHC_

IN

[0

]

CHC_

CKR

CHC_

REF

_

CLK

CHC_

P

R

ES

R6

8

10K

CD2

1

10uF

CD2

7

0.

1uF

CD2

2

0.

1uF

CD2

3

0.

1uF

+

C7

1uF

+

C1

4

1uF

+

C2

1uF

C5

0.

1uF

C6

0.

1uF

C1

5

0.

1uF

CD3

0.

1uF

CD5

0

0.

1uF

CD2

5

0.

1uF

R7

10K

R1

3

10K

R1

6

10K

+5

V

B

+5

V

B

+5

V

B

804900S

2

804900S

2.

S

C

H

804900S

3

804900S

3.

S

C

H

P

C

 804998

47

R3

3

47

R6

9

47

R6

7

C

H

D

_

IN

[8]

C

H

D

_

IN

[9]

IN

A

-

1

IN

A

+

2

A/

!B

3

!BI

S

TEN

4

IN

B

+

28

IN

B

-

27

M

ODE

26

REFCLK

25

RF

5

GND

6

!RDY

7

GND

8

Vccn

9

Qj (RVS)

10

Qh (Q7)

11

Qg (

Q

6

)

12

Qf (

Q

5

)

13

Qe

 (

Q

3

)

15

Qi

 (

Q

4

)

14

Qd

 (

Q

2

)

16

Qc

 (

Q

1

)

17

Qb

 (

Q

0

)

18

Qa (SC/!D)

19

GND

20

Vccq

21

CKR

22

SO

23

Vccq

24

U9

CY7

B

9

3

3

Vc

c

1

Vc

c

2

EOM

3

Vc

c

4

CD

5

AE

C

+

6

AE

C

-

7

!DO

14

DO

13

!M

UTE

12

Ve

e

11

Ve

e

10

!DI

9

DI

8

U8

CL

C0

1

4

R2

0

75R

R2

2

75R

D4

BAS3

2

L

+5

V

B

+5

V

B

C1

8

100pF

R2

8

120R

C2

0

0.

1uF

C1

9

0.

1uF

R4

2

100R

R6

4

75R

L4

0.

022uH

Input-2

+5

V

B

+5

V

B

+5

V

B

+5

V

B

+5

V

B

C

H

D

_

IN

[7]

C

H

D

_

IN

[6]

C

H

D

_

IN

[5]

C

H

D

_

IN

[4]

C

H

D

_

IN

[3]

C

H

D

_

IN

[2]

C

H

D

_

IN

[1]

C

H

D

_

IN

[0]

CHD_

CKR

CHD_

REF

_

CLK

CHD_

P

R

ES

R2

3

10K

CD1

10uF

CD2

0.

1uF

CD8

0.

1uF

CD1

0

0.

1uF

+

C2

1

1uF

CD3

1

0.

1uF

CD4

6

0.

1uF

R9

10K

47

R6

6

Summary of Contents for MMM-4230

Page 1: ...R T Electronics Pty Ltd A B N 35 000 832 575 26 Hotham Parade ARTARMON N S W 2064 AUSTRALIA National Phone 02 9439 3744 Fax 02 9439 7439 International 61 2 9439 3744 61 2 9439 7439 Email sales irtele...

Page 2: ...tenance Storage 16 Warranty Service 16 Equipment return 16 Drawing List Index 17 This instruction book applies to units later than S N 0504001 Operational Safety WARNING Operation of electronic equipm...

Page 3: ...Belden 8281 or equivalent cable RS422 9600 Baud uni directional data may also be sent on the same link Front panel indication and relay alarm on the MMM 4230 transmitter shows if there is an input da...

Page 4: ...istics B3ZS encoded Data Rate 44 736 Mb s Outputs Type 1 4 x ASI C 75 800 mVp p BNC connector Data Rate same as MMM 4230 input rate Type 2 RS 422 9600 Baud Uni directional Alarm Output Contact closure...

Page 5: ...s 68m 225ft OUT Output shaped recommended for output drive lengths 68m 225ft LK7 Installing this link will terminate the RS 422 data line Note Not applicable for 34 Mb s E3 version MMX 4230 CONFIGURAT...

Page 6: ...Position I P 1 I P 2 I P 3 I P 4 0 43 5 1 38 26 5 46 2 32 8 10 93 3 27 33 16 4 4 21 86 21 86 5 32 8 5 46 5 46 6 27 33 10 93 5 46 7 21 86 16 4 5 46 8 21 86 10 93 10 93 9 14 6 14 6 14 6 A Variable B 21...

Page 7: ...ts 2 3 4 input 2 has priority over inputs 3 4 and input 3 has priority over input 4 So even if say channel 2 has an input rate above 13 4 Mb s and then input 1 s rate also increases above 13 4 Mb s th...

Page 8: ...2 25 12 8 37 3 20 93 12 56 4 16 75 16 75 5 25 12 4 18 4 18 6 20 93 8 37 4 18 7 16 75 12 56 4 18 8 16 75 8 37 8 37 9 12 56 12 56 8 37 A 20 93 4 18 4 18 B 16 75 8 37 4 18 4 18 C 12 56 12 56 4 18 4 18 D...

Page 9: ...connection Installation in frame or chassis See details in separate manual for selected frame type Signal Connections All ASI G 703 inputs and outputs are by 75 BNC connectors Alarm output is via a tw...

Page 10: ...line up with the three sets of multipin sockets on the main PCB module Align all pins and then gently press the SMU 4000 all the way down into place If the SMU 4000 is not already programmed with the...

Page 11: ...4230 mmm 4230 mmx ib rev4 doc Page 11 of 17 17 10 2007 RS 422 pin assignments Connectors viewed from top RB RA MMM 4230 TB TA MMX 4230...

Page 12: ...ces can be achieved The RS 422 specification allows reliable serial data communications for Distances up to 1200 metres Data rates of up to 10 Mb s Only one line driver is allowed on a line and up to...

Page 13: ...bly drawings are not to scale and are intended to show connection order and approximate layout only G 703 OUT INPUT 1 INPUT 2 INPUT 3 RS 422 URGENT ALARM INPUT 4 G 703 IN OUTPUT 1 OUTPUT 2 OUTPUT 3 RS...

Page 14: ...lates that information into a form compatible with SNMP The agent therefore acts as an interface between the NMS and the managed devices The NMS sends a request message and control commands for the ma...

Page 15: ...ible need a plug in SMU 4000 module with a program relevant to the module that it is plugged into Depending on the module besides the module identification parameters such as alarm states inputs and c...

Page 16: ...l be extended by IRT only to the extent obtainable from the component supplier Equipment return Before arranging service ensure that the fault is in the unit to be serviced and not in associated equip...

Page 17: ...t 1 804900 2 MMM 4230 4 Channel ASI to G 703 Multiplexer Schematic sheet 2 804900 3 MMM 4230 4 Channel ASI to G 703 Multiplexer Schematic sheet 3 804902 1 MMX 4230 G 703 to 4 Channel ASI De Multiplexe...

Page 18: ...IN 1 CHB_IN 0 CHB_CKR CHB_REF_CLK CHB_PRES R65 10K CD20 10uF CD57 0 1uF CD53 0 1uF CD52 0 1uF CHC_IN 8 CHC_IN 9 INA 1 INA 2 A B 3 BISTEN 4 INB 28 INB 27 MODE 26 REFCLK 25 RF 5 GND 6 RDY 7 GND 8 Vccn 9...

Page 19: ...VCCINT 152 TDI 153 nCE 154 DCLK 155 DATA0 156 U1 EPF1K50QC208 3 VccINT VccIO R44 1K R30 1K VccIO CHA_PRES CHC_PRES CHA_IN 9 CHA_IN 8 CHA_IN 7 CHA_IN 6 CHA_IN 5 CHA_IN 4 CHA_IN 3 CHA_IN 2 CHA_IN 1 CHA_...

Page 20: ...5V INPUT 1 COMMON 2 OUTPUT 3 U17 REG_LM3940 ADJUST 1 OUTPUT 2 INPUT 3 U16 LM317S 1 2 J5 RS422 RB RS422 RA SK1 Input 1 ASI INPUT 1 SK2 ASI INPUT 2 SK4 ASI INPUT 3 L9 0 022uH SK5 BNC G703 OUTPUT Input...

Page 21: ...5Vb CHC_D7 CHC_SVS Output 4 CHC_D6 CHC_D5 CHC_D4 CHC_D3 CHC_D2 CHC_D1 CHC_D0 CHC_SC D CHC_CKW CHC_ENA OutB 1 OutC 2 OutC 3 Vccn 4 OutB 28 OutA 27 OutA 26 FOTO 25 BISTEN 5 GND 6 MODE 7 RP 8 Vccq 9 SVS...

Page 22: ...NDINT 129 VCCINT 130 131 132 133 134 135 136 GNDINT 137 VCCIO 138 139 140 141 142 143 144 GNDINT 145 VCCIO 146 147 148 149 150 GNDINT 151 VCCINT 152 TDI 153 nCE 154 DCLK 155 DATA0 156 U1 EPF1K50QC208...

Page 23: ...A L5 0 015uH SK1 ASI OUTPUT 1 L6 0 015uH SK2 ASI OUTPUT 2 L8 0 015uH SK4 ASI OUTPUT 4 L9 0 022uH SK5 BNC INPUT Output3 Output4 G7039in URGENT ALARM R54 R 5VB URGENT RELAY RL1 COIL 5V RL1 CONTACT R43 4...

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