FAM-50X3S-T40_技术文档

July 10, 2005

OC-192/STM-64 SFF Transponder

(1550nm, 40km, 65km and 80km transmission)

Members of Softac Family

Standard

Compliant with 300-PIN MSA

Compliant with ITU-T G.691

Compliant with ITU-T G.959.1

Compliant with Telcordia GR-253

Compliant with IEEE 802.3ae

Features

Compliant with OIF SFI-4 interface

Compliant with Telcordia GR-468-Core

Compliant with FDA 21CFR 1040.10 Class Ⅰ

ꢀ

1550nm externally EA modulated laser

Wide dynamic range PIN or APD receiver

Support transmission distance of 40km, 65km

and 80km

Description

ꢀ

Support multi-rate operation from 9.953Gb/s to

11.318 Gb/s

The transponders are intended for 1550nm system

applications with reaches of up to 40km, 65km and

80km, which is designed to provide high optical

performance for SONET OC-192 / SDH STM-64.

The transmitter converts the electrical data into

10Gbit/s optical signal, which uses 1550nm

externally EA modulated laser with specified driving

circuit.

ꢀ

1:16 MUX/DEMUX integrated

16-bit parallel 622.08Mbps LVDS data interface

Selectable dual fixed-rate jitter clean-up which

can be bypassed for multi-rate operation

Compliant with the 300 pin MSA in a compact

size

ꢀ

Compliant I2C MSA (Edition 4.0) interface for

monitoring/control

At the receiving side, the incoming data stream is

received at 10Gb/s PIN or APD receiver, which

converts it into a 10Gb/s electrical data stream.

The MUX section multiplexes 16 parallel 622Mb/s

electrical channels into a 10Gb/s series data stream

and sent it to the transmitter. And the DEMUX

section demultiplexes the 10Gb/s electrical data

stream into 16 parallel 622Mb/s electrical channels.

The parallel data is sent out to and get from the

300-pin MSA (Multi Source Agreement) compliant

connector.

ꢀ

Supply voltage: +1.8V, +3.3V, +5.0V, -5.2V

Operating case temperature: -5℃ to +70℃

Applications

ꢀ

Metro network SDH / SONET system

10 Gigabit Ethernet system

Forward Error Correction (FEC) system

Optical Transport Network (OTN) System

The transmitter and receiver reference clock rates

are selectable for divide by 16 or 64.

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Page 1 of 14

OC-192/STM-64 1550nm Transponder

40km, 65km and 80km transmission

Preliminary Data Sheet

July 10, 2005

Block Diagram

LsENABLE

LsPOWMON

LsBIASMON

LsPOWALM

LsBIASALM

APC

16

TxDIN[0:15]P/N

TxPICLKP/N

TxREFCLKP/N

MUX

TxREFSEL

with CMU

OC-192

Optical Output

Driver

TX E-O

ATC

TxRESET

TxFIFORES

TxRATESEL0/1

TxPCLKP/N

TxMCLKP/N

TxLOCKERR

TxFIFOERR

LsTEMPMON

LsTEMPALM

Serial

Monitor

I2CDATA

I2CCLOCK

16

RxDOUT[0:15]P/N

RxPOCLKP/N

RxMCLKP/N

DEMUX

OC-192

Optical Iutput

RX O-E

RxREFCLKP/N

with CDR

RxREFSEL

RxLCKREF

RxRATESEL0/1

Optical

Monitor

RxPOWMON

RxPOWALM

RxLOCKERR

RxALIMINT

TxALIMINT

ALMINT

+5.0V +3.3V +1.8V -5.2V GND

Figure 1, Block Diagram of Transponder

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Page 2 of 14

OC-192/STM-64 1550nm Transponder

40km, 65km and 80km transmission

Preliminary Data Sheet

July 10, 2005

Absolute Maximum Ratings

Stresses in excess of the Absolute Maximum Ratings can cause permanent damage to the device.

Table 1- Absolute Maximum Ratings

Parameter

Symbol

T_S

Min.

-40

Max.

+85

+75

+6.0

+4.2

+3.3

+0.5

85

Unit

°C

V

Storage Temperature

Operating Case Temperature

T_cm

-10

V_cc

-0.5

-7.0

V_dd1

V_dd2

V_ee

V

Supply Voltage

V

Operating Relative Humidity (non-condensing)

Electro-Static Discharge

%

V

RH

ESD

2000

+3

Input Optical Power

APD

dBm

+1

Recommended Operating Conditions

Specified performance is maintained over all conditions in the table below, and damage to the device may

occur over an extended period of time.

Table 2 - Recommended Operating Conditions

Parameter

Symbol

T_C

Min.

-5

Typ.

Max.

+70

Unit

°C

Operating Case Temperature

V_cc

+4.75

+3.15

+1.71

-5.45

+5.0

+3.3

+1.8

-5.2

90

+5.25

+3.45

+1.89

-4.95

150

V

V_dd1

V_dd2

V_ee

I_cc

V

Supply Voltage

Supply Current

V

mA

W

I_dd1

300

700

450

5.0

600

I_dd2

750

I_ee

500

Power consumption

Power supply noise rejection

Note:

Pd

6.5

50

mVp-p

1. An additional 0.2 W of power dissipation is required or single or dual rate jitter filter.

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Page 3 of 14

OC-192/STM-64 1550nm Transponder

40km, 65km and 80km transmission

Preliminary Data Sheet

July 10, 2005

Optical Interface Characteristics

Table 3 - Optical Characteristics

Parameter

Symbol

Min.

Typical

Max.

Unit

Notes

Transmitter

Centre Wavelength

λ_C

1530

-1

1565

+2

nm

Normal-Power

Output Power

0

P_OUT

dBm

1

High-Power

0

+2

+4

Output Power Stability

∆P_OUT

-0.5

+0.5

-45

0.3

dBm

nm

Output Power at laser disable

Spectral Width (-20dB)

P_OUT

∆

20

Side Mode Suppression Ratio

SMSR

ER

35

8.2

10

dB

40km

Extinction Ratio

9

dB

65/80km

11

40km

800

1300

1600

Chromatic

65km

D

ps/nm

Dispersion

80km

Compliant with Telcordia GR-253-CORE and ITU-T

G.691

Output Optical Eye

Jitter Generation

B1

B2

0.3

0.1

UI

2

Receiver

Centre Wavelength

λ_C

1290

1600

-17

nm

Receiver Sensitivity

APD

-19

-26

0

P_IN

dBm

3

-24

Receiver Overload

APD

-1

-9

P_IN

dBm

-6

Optical Path Penalty

Reflection of Receiver

Jitter Tolerance

2

dB

-27

Compliant with Telcordia GR-253 and ITU-T G.825

Jitter Transfer

Notes:

1. The optical power is launched into SMF.

2. Measured with a NRZ PRBS 2³¹-1 test pattern @ 9.95328Gbps.

3. Measured with a NRZ PRBS 2³¹-1 test pattern @ 9.95328Gbps, BER ≤1×10^-12.

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Page 4 of 14

OC-192/STM-64 1550nm Transponder

40km, 65km and 80km transmission

Preliminary Data Sheet

July 10, 2005

Electrical Interface Characteristics

Table 4 - LVDS Input/Output Specification

Parameter

LVDS interface

Symbol

Min.

Typical

Max.

Unit

Notes

Input Differential Voltage

Input Differential impedance

Output Differential Voltage

V_ID

R_ID

V_OD

200

80

mV

Ω

100

120

500

1000

mV

Output Common Mode Voltage

Output Differential impedance

Rise Time/Fall time

V_CMO

R_OD

80

45

100

50

120

250

55

Ω

ps

%

T_rise/fall

Clock Signal Duty Cycle

VP

Common Mode

Voltage

Differantial

Voltage

(V_CMIor V_CMD

)

(V_ODor V_ID)

VN

Definition of Differantial Voltage Levels

Table 5 - Input Reference Clocks

Parameter

Symbol

V_ID

Min.

400

80

Typical

Max.

1800

120

Unit

mV

Ω

Notes

Input Differential Voltage

Differential Input Impedance

R_ID

100

Clock signal Duty Cycle

Tw/To

45

55

%

Table 6 - LVTTL Input/Output Pin Characteristics

Parameter

Input High Voltage

Symbol

V_IH

Min.

Typical

Max.

Vdd

0.8

Unit

Notes

2.0

V

Input Low Voltage

V_IL

GND

Output High Voltage

Output Low Voltage

V_OH

V_OL

2.4

Vdd

0.4

V

GND

Transponder Clock Interfaces and Control

There are seven clock interfaces to the transponder. This section details the specific functions, capabilities,

and limitations of each. Note that all clock rates shown are at STM-64/OC-192 rate, but should be scaled

appropriately for other data rates.

The LVPECL TxREFCLK, provided via the 300-pin interface, may be at 1/16 or 1/64 of the transmitted serial

data rate. The TxREFCLK must be synchronous with the TxPICLK. There are several approaches to ensure

this synchronous relationship. The two most common are

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OC-192/STM-64 1550nm Transponder

40km, 65km and 80km transmission

Preliminary Data Sheet

July 10, 2005

1) Locking the TxPICLK to the TxPCLK out of the transponder

2) Generating TxPICLK and TxREFCLK from the same clock on the line-card.

The LVPECL RxREFCLK may be at 1/16 or 1/64 of the incoming data rate also.

Table 7 - Reference Clock characteristics

Parameter

Symbol

Min. Typical Max.

Transmitter

Unit

Notes

TxREFCLKP

TxREFCLKN

Frequency

155.52/622.08

MHz

ppm

Serial data-rate is 9.953Gbps

Frequency

tolerance

-100

40

+100

Rise/Fall time

Duty Cycle

Tr/Tf

300

60

ps

%

50

Receiver

RxREFCLKP

RxREFCLKN

Frequency

155.52/622.08

MHz

ppm

Serial data-rate is 9.953Gbps

Frequency

tolerance

-100

40

+100

Rise/Fall time

Duty Cycle

Tr/Tf

300

60

ps

%

50

Table 8 - Transmitter/Receiver Parallel Data/Clock Interface

Parameter

Symbol

Level

Notes

Transmitter 16-bit parallel Date Input

TxDin[0:15]P/N

LVDS

TxDin0:LSB, TxDin15:MSB

Transmitter

Source

synchronous

TxPICLKP/N

LVDS

ParallelInput Clock

Transmitter Counter Clock

LVDS

TxPCLKP/N

Receiver 16-bit parallel Date Output

Receiver Source synchronous Parallel

Output Clock

RxDout[0:15]P/N

RxDout0:LSB, RxDout15:MSB

RxPOCLKP/N

LVDS

Table 9 - Transmitter/Receiver Parallel Data/Clock Timing

Parameter Symbol Min.

Typical

Max.

Unit

Notes

Transmitter Data/Clock Timing: SERDES Input Timing at SERDES pin

Duty Cycle

Rise and Fall time

Setup time

Tw/To

Tr/Tf

Ts

40

60

%

ps

TxPICLK

TxDin

300

20 – 80%

300

Hold time

Th

ps

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OC-192/STM-64 1550nm Transponder

40km, 65km and 80km transmission

Preliminary Data Sheet

July 10, 2005

To

Tw

TxPICLKP

TxDin[0:15]P/N

Th

Ts

Ts: Measuring from the LHS inner data eye to the immediate rising edge of clock pulse

Th: Measuring from the rising edge of clock pulse to the inner RHS of data eye

Receiver Data/Clock Timing: SERDES Output Timing at SERDES pin

RxPOCLK

Duty cycle

Tw/To

Tr/Tf

40

60

%

ps

Rise and Fall time

300

250

20 – 80%

RxDout

Data/Clock skew

Tcq_min,

Tcq_max

T o

T w

R x P O C L K P

T c q _ m a x

R x D o u t[0 :1 5 ]P /N

T c q _ m in

Table 10 - Monitor Clock

Parameter

Symbol

Level

Notes

Transmitter

The LVDS TxMCLK is either a 1/16 or 1/64 replica of the

clock used to time the serial data output. The rate of the

TxMCLK is always the same as that of the TxREFCLK

The LVDS RxMCLK is a 1/16 or 1/64 replica of the clock

recovered from the incoming data

monitor clock

TxMCLKP/N

RxMCLKP/N

LVDS

Receiver

LVDS

monitor clock

Table 11 - Serial Data Rate selection

(LVTTL with pull-up resistor)

Function

TxRATESEL1/ TxRATESEL0/

RxRATESEL1 RxRATESEL0

Tx/Rx Serial Data

Rate

10.3125Gbps

Parallel Data Rate

TxDIN[0:15]/RxOUT[0:15]

644.54Mbps

TxPICLK/RxPOCLK

L

644.54Mbps

690.56/693.43/

707.37Mbps

657.43/666.51/

669.32Mbps

622.08Mbps

11.049/11.095/

11.318Gbps

690.56/693.43/

707.37Mbps

H

10.519/10.664/

10.709Gbps

657.43/666.51/

669.32Mbps

H

L

H

9.95328Gbps

622.08Mbps

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Page 7 of 14

OC-192/STM-64 1550nm Transponder

40km, 65km and 80km transmission

Preliminary Data Sheet

July 10, 2005

Digital Control Signal

Table 12 - Input Digital signals

Function

Module

Symbol

Level

Description

Module reset

Note

L

Reset both Tx and Rx section

(LVTTL with pull-up resistor)

MOD_RESET

LVTTL

RESET

H

Normal operation

Diagnostic

Loop-back

L

Enable

DLOOPENB

LLOOPENB

LVTTL

(LVTTL with pull-up resistor)

H

L

Normal operation

Enable

Line

Loop-back

Transmitter

H

Normal operation

0,0

0,1

10.3125Gbps

11.049/11.095/

11.318Gbps

Select

serial

TxRATESEL1, 0 LVTTL

(LVTTL with pull-up resistor)

data rate

10.519/10.664/

10.709Gbps

1,0

1,1

L

9.95328Gbps

Select

the

1/64 data-rate

1/16 data-rate

TxREFSEL

LVTTL

(LVTTL with pull-up resistor)

frequency of

TxREFCLK

H

L

Select

the

TxPICLKSEL

(LVTTL with pull-down resistor)

frequency of

TxPICLK

H

L

1/32 data-rate

Enable

Enable internal

Line Timing

On multi-rate units without jitter

clean up, this pin is ignored.

(LVTTL with pull-up resistor)

TxLINETIMSEL LVTTL

TxSKEWSEL0,1 LVTTL

H

Normal operation

Select delay of

TxPICLK

0,0

0,1

1,0

1,1

L

Delays 915ps

Delays 1015ps

Delays 715ps

Delays 815ps

Normal operation

Laser disabled

MUX reset

(LVTTL with pull-up resistor)

Enable/Disable

Laser

LsENABLE

TxRESET

LVTTL

(LVTTL with pull-down resistor)

(LVTTL with pull-up resistor)

H

Asynchronous

system reset

L

H

Normal operation

Internally the FIFO reset is

connected to TxRESET and

TxFIFOERR. TxFIFOERR will

initiate a FIFO reset

L

MUX FIFO reset

Normal operation

MUX

reset

FIFO

TxFIFORES

LVTTL

H

(LVTTL with pull-up resistor)

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OC-192/STM-64 1550nm Transponder

40km, 65km and 80km transmission

Preliminary Data Sheet

July 10, 2005

Receiver

0,0

0,1

10.3125Gbps

11.049/11.095/

11.318Gbps

Select

rate

data

the

TxRATESEL0,1 LVTTL

(LVTTL with pull-up resistor)

10.519/10.664/

10.709Gbps

1,0

1,1

L

9.95328Gbps

Select

1/64 data-rate

RxREFSEL

RxMCLKSEL

RxLCKREF

LVTTL

(LVTTL with pull-down resistor)

(LVTTL with pull-up resistor)

frequency of

RxREFCLK

H

1/16 data-rate

Select

the

L

H

L

1/64 data-rate

1/16 data-rate

frequency of

RxMCLK

Lock

Lock to RxREFCLK

Normal operation

RxPOCLK to

RxREFCLK

H

Mutes

the

Mutes the

L

RxDOUT[0:15]

Normal operation

RxMUTEDOUT LVTTL

RxMUTEMCLK LVTTL

H

L

Mutes

the

Mutes the RxMCLK

Normal operation

receiver output

monitor clock

Mutes receiver

parallel output

clock

H

L

Mutes the

RxPOCLK

RxMUTEPOCLK LVTTL

(LVTTL with pull-up resistor)

H

Normal operation

RxPOCLK

Rx

L

Asynchronous reset

Normal operation

RxRESET

LVTTL

synchronous

system reset

H

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Page 9 of 14

OC-192/STM-64 1550nm Transponder

40km, 65km and 80km transmission

Preliminary Data Sheet

July 10, 2005

Digital Alarm Signal

Table 13 - Alarms Digital signals

Function

Symbol

Level

Description

Note

Common Digital Signal

Any alarm from

both transmitter

and receiver

Indicates

all

L

Activation Time: 10ms

ALMINT

LVTTL

alarm active

Deactivation Time: 10ms

H

Normal operation

Transmitter

L

Alarm active

Loss of transmitter PLL lock

Loss of Tx PLL

lock

TxLOCKERR LVTTL

Activation Time: 1ms

H

Normal operation

Deactivation Time: 1ms

Alarm active

TxError is internally connected to

TxFIFO RES. (Default) Customer may

have control of TXFIFO RES without

internal loopback (Optional)

L

(FIFO overflow)

MUX FIFO error TxFIFOERR LVTTL

H

Normal operation

Alarm active

(laser bias

Alarm when laser bias changes by a

factor of 2 from beginning of life or if

L

Laser bias out

LsBIASALM LVTTL

of range

current alarm)

monitor

reaches

maximum

level

corresponding to approximate150mA.

Activation Time: 10 ms

H

Normal operation

Deactivation Time: 10 ms

Laser

Laser temperature 5°C from nominal,

Activation Time : 10ms

L

H

L

Alarm active

Normal operation

Alarm active

LsTEMPALM LVTTL

LsPOWALM LVTTL

temperature out

of range

Deactivation Time : 10ms

Laser

output

Output power degrades 3dB below the

BOL Activation Time : 10ms

Deactivation Time : 10ms

power out of

range

H

Normal operation

Alarm from

transmitter

L

Activation Time: 10 ms;

Deactivation Time: 10 ms

Tx alarms

TxALMINT

LVTTL

H

Normal operation

Receiver

Loss of Rx PLL

lock

L

H

L

Alarm active

Normal operation

Alarm active

Activation Time: 1ms

RxLOCKERR LVTTL

RxPOWALM LVTTL

Deactivation Time: 1ms

Loss of receiver

average power

alarm

Activation Time: <1ms

Deactivation Time: <1ms

H

Normal operation

Alarm from

transmitter

L

Activation Time: 10 ms;

Deactivation Time: 10 ms

Rx alarms

RxALMINT

LVTTL

H

Normal operation

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Page 10 of 14

OC-192/STM-64 1550nm Transponder

40km, 65km and 80km transmission

Preliminary Data Sheet

July 10, 2005

Analog Monitoring Signal

Table 14 - Monitor Signals

Function

Symbol

Min.

Typ.

Max.

Unit

Transmitter

Normalized laser power monitor voltage BOL

Laser power monitor voltage slope

0.47

0.5

0.53

V

LsPOWMON

0.25 V change for 50% power variation

(mW)

Laser bias monitor voltage offset

Laser bias monitor voltage slope

Normalized laser temperature Monitor voltage

Laser temperature Monitor voltage slop

Receiver

0.2

18

0

2

V

LsBIASMON

LsTEMPMON

20

2.5

25

22

2.6

27

mV/mA

V

2.4

23

mV/℃

Input optical power monitor PIN

0.08

0.60

0.8

0.10

0.80

1.0

0.12

1.00

1.26

8.1

mV

voltage offset @-10dBm

Input optical power monitor PIN

voltage slope

APD

RxPOWMON

V/mW

dB

APD

7.9

8.0

Input optical power monitor error

-1.5

+1.5

I2C Serial Interface

Table 14 – I2C Interface

Function

Symbol

Level

Description

Note

I2C address input for module

addressing (LSB)

(LVTTL with pull-down

resistor)

I2CAD0

LVTTL

I2C address input for module

addressing

(LVTTL with pull-down

resistor)

I2C Address

I2CAD1

I2CAD2

LVTTL

I2C address input for module

addressing (MSB)

(LVTTL with pull-down

resistor)

Open

collector

Open

I2C clock input/output for

remote access

I2C Clock

I2C Data

I2CCLOCK

I2CDATA

N/A

I2C data input/output for

remote access

collector

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OC-192/STM-64 1550nm Transponder

40km, 65km and 80km transmission

Preliminary Data Sheet

July 10, 2005

Pin Definitions

Table 15 - Pin Function Definitions

K

J

H

GND

G

F

NUC

E

D

GND

C

B

GND

A

1

2

3

4

5

6

7

8

+5V

RxTRACE

FFU

RxDout12P

RxDout12N

GND

RxDout8P

RxDout8N

GND

RxDout4P

RxDout4N

GND

RxDout0P

RxDout0N

GND

NUC

GND

RxRATESEL0 RxRATESEL1

FFU

RxPOWMON

+3.3V

I2CAD0

GND

RxDTV

GND

+3.3V

NUC

GND

RxDout13P

RxDout13N

GND

RxDout9P

RxDout9N

GND

RxDout5P

RxDout5N

GND

RxDout1P

RxDout1N

GND

+3.3V

GND

Rx_Reset

+3.3V

NUC

DLOOPENB

GND

RxPOWALM

+3.3V

I2CAD1

GND

RxMUTE Dout

GND

FFU

RxDout14P

RxDout14N

GND

RxDout10P

RxDout10N

GND

RxDout6P

RxDout6N

GND

RxDout2P

RxDout2N

GND

+3.3V

FFU

GND

+3.3V

GND

9 RxMUTEPOCLK

NUC

FFU

I2CAD2

GND

RxLCKREF

GND

10

11

-5.2V

APS Sense

APS Set

NUC

GND

RxDout15P

RxDout15N

GND

-5.2V

RxDout11P

RxDout11N

GND

RxDout7P

RxDout7N

GND

RxDout3P

RxDout3N

GND

-5.2V

GND

12 RxMUTEMCLK

FFU

MOD RESET

GND

RxMCLKSEL

GND

13

14

-5.2V

FFU

GND

FFU

-5.2V

RxPOCLKP

RxPOCLKN

GND

RxMCLKP

RxMCLKN

GND

RxREFCLKP

RxREFCLKN

GND

RxALMINT

NUC

GND

FFU

-5.2V

GND

15 I2CCLOCK

ALMINT

GND

RxREFSEL

NUC

FFU

RxLOCKERR

GND

16

17

18

19

20

+5V

TxALMINT

FFU

TxDin12P

TxDin12N

GND

TxDin8P

TxDin8N

GND

TxDin4P

TxDin4N

GND

TxDin0P

TxDin0N

GND

NUC

GND

I2CDATA

+3.3V

NUC

FFU

LsBIASMON

+3.3V

LsPOWMON

GND

TxSKEWSEL0

GND

FFU

GND

TxDin13P

TxDin13N

GND

TxDin9P

TxDin9N

GND

TxDin5P

TxDin5N

GND

TxDin1P

TxDin1N

GND

FFU

GND

+3.3V

GND

21 TxRATESEL0 TxRATESEL1

FFU

LsENABLE

+3.3V

LsTEMPMON

GND

TxSKEWSEL1

GND

22

23

24

25

26

+3.3V

FFU

GND

TxDin14P

TxDin14N

GND

TxDin10P

TxDin10N

GND

TxDin6P

TxDin6N

GND

TxDin2P

TxDin2N

GND

+3.3V

GND

TxRESET

-5.2V

NUC

FFU

LsBIASALM

-5.2V

FFU

NUC

GND

TxDin15P

TxDin15N

GND

TxDin11P

TxDin11N

GND

TxDin7P

TxDin7N

GND

TxDin3P

TxDin3N

GND

-5.2V

NUC

GND

-5.2V

GND

27 TxFIFORES

NUC

LLOOPENB

GND

LsTEMPALM

-5.2V

FFU

TxPICLKSEL

GND

28

29

-5.2V

FFU

TxPICLKP

TxPICLKN

GND

TxPCLKP

TxPCLKN

GND

TxMCLKP

TxMCLKN

GND

TxREFCLKP

TxREFCLKN

GND

TxTRACE

NUC

GND

-5.2V

GND

30 TxFIFOERR

LINETIMESEL

TxREFSEL

LsPOWALM

TxLOCKERR

FFU: Reserved for Future Use

NUC: No Use Connection

Fiberxon Proprietary and Confidential, Do Not Copy or Distribute

Page 12 of 14

OC-192/STM-64 1550nm Transponder

40km, 65km and 80km transmission

Preliminary Data Sheet

July 10, 2005

Mechanical Design Diagram

The mechanical design diagram is shown in Figure 2.

Figure 2, Mechanical Diagram

Ordering Information

FAM

Wavelength

5: 1550nm

Distance

40: 40km

65: 65km

80: 80km

Others

Reserved by vendor

H: High Optical Power

Receptacle

C: LC

S: SC

Package

T: 300-PIN

Function

0: Without jitter filter

1: With jitter filter

F: FC

M: MU

Data rate

X1: Multi-rate from 9.95328G to 10.709G (without jitter filter)

X2: 9.95328G (single jitter-filter)

X3: 10.3125G (single jitter-filter)

X4: 10.644G (single jitter-filter)

X5: 10.709G (single jitter-filter)

XA: 9.95328&10.709G (dual jitter-filter)

XB: 9.95328&10.3125G (dual jitter-filter)

Part No.

Product Description

FAM-50X1S-T40

FAM-50X1S-T65

FAM-50X1S-T80

1550nm, 10Gbps, 40km, PIN, SC connector, Without jitter-filter.

1550nm, 10Gbps, 65km, APD, SC connector, Without jitter-filter.

1550nm, 10Gbps, 80km, APD, SC connector, Without jitter-filter.

FAM-50X1S-T80H 1550nm high power laser, 10Gbps, 80km, APD, SC connector, Without jitter-filter.

Fiberxon Proprietary and Confidential, Do Not Copy or Distribute

Page 13 of 14

OC-192/STM-64 1550nm Transponder

40km, 65km and 80km transmission

Preliminary Data Sheet

July 10, 2005


型号：	FAM-50X3S-T40
厂家：	SOURCE PHOTONICS, INC.
描述：	Transponder, 1530nm Min, 1565nm Max, 10312.5Mbps(Tx), 10312.5Mbps(Rx), SC Connector, Panel Mount
文件：	总14页 (文件大小：242K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

FAM-50X3S-T40 [SOURCE]

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