MF-2500SRB-002WA [MITSUBISHI]

Receiver, 1-Func;


型号：	MF-2500SRB-002WA
厂家：	Mitsubishi Group
描述：	Receiver, 1-Func ATM 异步传输模式电信电信集成电路
文件：	总17页 (文件大小：205K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

MITSUBISHI

TQ9-98-232D

(1/17)

Sep.20 1999

APPROVED

CHARGED

2nd Generation

SDH /SONET integrated module

Multi-Source STM-16 / OC-48

Features:

1. Full SONET/SDH line up

2. Low cost

3. Compact, low power

4. +5V single power supply, DC/DC converter built in for Rx

5. Case Temp. Range: Class 1;-5 to +75deg.C / Class 2;-40 to +85deg.C

6. Clock recovery

7. Multi source

8. FEC Rate 2.666Gb/s optional

MITSUBISHI

TQ9-98-232D

(2/17)

Description

This product is designed to provide high optical performance for SDH STM-16/SONET OC-48.

Transmitter uses uncooled laser module with drivered by specific integrated circuit.

Receiver uses PD or APD preamp-module and integrated circuits for reshaping,retiming and regenerating

optical signal.

Block diagram

LD Module

VCC

:integrated device

OPT.OUT

Driver IC

SELC

DATAin

Monitoring for

back face

DATAin

CLOCKin

Driver IC

Monitoring

for LD current

APC IC

Laser Degrade

Alarm

A.P.C

Modulation

Control

SDC

L16.1/LR-1,L16.2/LR-2,V-16.2 Transmitter

OILV

Monitor

DATAout

CLKout

OPT.IN

Decider

PLL Alarm

Preamp

PD-Preamp Module

Clock recovery IC

Signal Detect

S-16.1/IR-1 Receiver

MITSUBISHI

TQ9-98-232D

(3/17)

OILV

Monitor

DC/DC

APD

APD Control

Amp

DATAou

CLKout

OPT.IN

Decider

Preamp

PLL

Clock recovery IC

Alarm

APD-Preamp Module

AGC amp

Signal Detect

DTV

L16.1/LR-1,L16.2/LR-2,V-16.2 Receiver

Absolute Maximum Ratings

Stress below listed absolute maximum rating may cause permanent damage to the module.

This is a stress only and functional operation of the module at these or any other conditions in excess of those

given in the operational sections of this data sheet .

Exposure to Absolute Maximum Rating for extended periods may affect module reliability.

Tc=25deg.C.

Parameters

Symbol

Ratings

Unit

Vcc

+6.0

Supply voltage

Vee

-6.0

TBD

High output current

Input voltage

TBD

Storage temperature

Operating case temperature

Soldering Temperature

Soldering Time

Tstg

-40 to +85

deg.C.

sec

class 1:-5 to +75

class 2:-40 to +85

+260

Relative humidity(non condensation)

Fiber bend radius

10 to 80

MITSUBISHI

TQ9-98-232D

(4/17)

Electrical characteristics

All parameters are specified over the operating case temperature.

Measurement conditions are at 2488.32Mb/s +/-20ppm, NRZ PN2²³-1 and 50% duty cycle data signal.

Vcc=+5.0V+/-5%.

2666.057 Mb/s is optional.

The parameters with * mark should be specified separately.

Transmitter

class1 : -5deg.C. to +75deg.C.

class2 : -40deg.C. to +85deg.C.

Parameters

Condition Symbol

Min.

Typ.

+5.0

Max.

Unit

Supply voltage

note 1

+4.75

+5.25

Power consumption

total

note 2,3

note 5

note 4

0.8

2.0

1.0

Vpp

mV/mA

*Input sensitivity data and clock voltage

Normalized back face voltage

Monitor bias voltage

0.5

0.8

500

Logic level

TTL compatible

note : Vcc-Vee ; with Vcc at +5V Vee must be at 0V

note : Internally AC coupled with 50ohm internal termination

note 1: Vcc-Vee ; with Vcc at +5V Vee must be at 0V

If customer need to operate under –5.2V power supply ,please contact MITSUBISHI .

note 2: Internally AC coupled with 50ohm internal termination

* note 3: This sensitivity is achieved by applying at minimum either a 0.5Vpp signal on one input while

the other input is tied to ground or by applying two complementary 0.25Vpp signal on both inputs.

note 4: when Vcc at +5V and Vee at 0V

note 5: This voltage is measured taking Vee as reference.

MITSUBISHI

TQ9-98-232D

(5/17)

Receiver

class1 : -5deg.C. to +75deg.C.

class2 : -40deg.C. to +85deg.C.

Parameters

Positive supply voltage

Condition

note 6

total

Symbol

Min.

+4.75

Typ.

+5.0

1.3

Max.

+5.25

2.5

Unit

Power consumption ( S-16.1 )

Power consumption ( Others )

*Output data and clock voltage single ended

*Output data and clock voltage differential

*Jitter generation

total

1.3

0.3

0.6

0.4

Vpp

Ulrms

Ulpp

0.8

GR-253/ITU-T G783

TTL compatible

*Jitter tolerance

*Jitter transfer peaking

Logic output level

note 6: If customer need to operate under -5.2V power supply ,please contact MITSUBISHI .

MITSUBISHI

TQ9-98-232D

(6/17)

Optical characteristics

2666.057 Mb/s is optional. The parameters with * mark should be specified separately.

cond. symb. Min.

Typ. Max.

S-16.1/IR-1

Min

Typ.

Max

ITU-T/SONET

Optical budget

Transmitter

L-16.1/LR-1

note8

Center wavelength

Optical source

Optical output power

Shutdown optical power

Spectral width

SMSR

Extinction ratio

Dispersion

maximum return loss

Receiver

1270 1310 1360 1280

SLM

1310

SLM

-50

0.3

1335

note9

S_nom

Sidle

-4.5

8.2

100

-2

-50

0.3

-40

-1.5

8.2

250

-40

dBm

note10

note11

ps/nm

note12

note13

*Receiver sensitivity

R_sen

-20.5 -18.5

-29.5

-27.5

dBm

*Receiver overload

Path penalty

Maximum reflectance

note14

R_ovr

0.2

-27

-8

-7

0.2

-27

dBm

cond. Symb. Min.

Typ. Max.

Min

Typ.

Max

ITU-T/SONET

Optical budget

Transmitter

L-16.2/LR-2

V-16.2

note8

Center wavelength

Optical source

Optical output power

Shutdown optical power

Spectral width

SMSR

Extinction ratio

Dispersion

maximum return loss

Receiver

1500 1530 1580 1530

SLM

1545

SLM

-50

0.3

1565

note9

S_nom

Sidle

-1.5

8.2

1600

-50

0.3

-40

-4.5

8.2

2400

-40

0.8

dBm

note10

note11

ps/nm

note12

note13

Receiver sensitivity

R_sen

-30.5 -28.5

-27.5

-25.5

dBm

Receiver overload

Path penalty

Maximum reflectance

note14

R_ovr

-8

-7

1.3

-27

-9

-8

1.5

-27

dBm

note8:The V-16.2 version is adapted to standard 10dBm to 13dBm EDFA optical bandwidth.

note9:Measured at the connector interface. Provision of 0.5dB is taken for S point measurement.

note10:The maximum full width of the central wavelength peak, measured 20dB down from maximum amplitude

under modulation condition PRBS 2²³-1.

note11:Measured at the connector interface under modulation condition PRBS 2²³-1.

note12:Measured at BER 10^-10

MITSUBISHI

TQ9-98-232D

(7/17)

note13:Provision of 0.5dB is taken for R point measurement if SMF fiber is used.

Note14:The device must not be damaged when this optical power is applied to the optical input.

The device is not meant to operate at such an optical input power.

All min and max. parameters are specified End-of-Life within the overall relevant operating temperature range.

The typical values are referenced to +25deg.C ,nominal power supply, beginning of life.

Ordering information

Transmitter : MF-2500STA-XXXXX_(*1)

Receiver : MF-2500SRA-XXXXX_(*2)

MF-2500SRB-XXXXX_(*3)

XXXXX_(*1)

XXXXX_(*2)

XXXXX_(*3)

ITU code

Optical connector type

S-16.1 / IR-1 class1

S-16.1 / IR-1 class2

L-16.1 / LR-1 class1

L-16.1 / LR-1 class2

L-16.2/ LR-2 class1

L-16.2/ LR-2 class2

002VA

002WA

002VA

002WA

TBD

003VA

TBD

003WA

TBD

002VA

TBD

002WA

TBD

004VA

TBD

004WA

TBD

003VA

TBD

003WA

TBD

V-16.2

class1

class2

TBD

Note 2666.057 Mb/s is optional.

The parts number should be specified separately.

MITSUBISHI

TQ9-98-232D

(8/17)

Pin Allocation

Transmitter pin allocation

No.

Symbol

VEE

Description

Negative power supply ⁴⁾

Monitoring for back facet PD

current

No.

Symbol

VCC

Description

Positive power supply ⁴⁾

Ground

BACK(+)

GND

BIAS(+)

SDC

Monitoring for LD bias current 22

Cki-

GND

Cki+

GND

Di-

False clock input

Ground

Shut Down Command ³⁾

Clock mode select ²⁾

Ground

SELC

True clock input ¹⁾

Ground

GND

TDEM ⁶⁾

Temperature Deviation

Error Monitor /

False data input

NIC

No Internal Connection

Laser Degrade Alarm ⁵⁾

No user connection

Wavelength Selection

Command /

LDA

NUC

GND

Di+

Ground

True data input

Ground

WSC ⁷⁾

/ NIC

GND

No Internal Connection

Ground

GND

VTEC ⁶⁾

/NIC

TEC supply voltage /

No Internal Connection

Positive power supply ⁴⁾

VEE

Negative power supply ⁴⁾

VCC

1): The falling edge of Cki clock input signal is at the Di data eye pattern crossing point.

2): When open (or low) the module is in the operating mode. When high the module operates in non

clocked mode.

3): When open (or low) the module is in the operating mode.

When high the module is in the shut down mode (no optical output power).

For only ES sample ,MITSUBISHI will inform in case of ;

When open (or low) the module is in the shut down mode

(no optical output power).

When high the module is in the operating mode.

4): Vcc-Vee; with Vcc at +5V Vee must be at 0V.

5): When provided a digital alarm indicates that the laser is degraded.

The active level is a low level.

This pin must be teidto Vcc through a 100k ohm resistor when the digital alarm is not proved.

6):Module with cooled LD and module for WDM only.

7):Module for WDM only.

MITSUBISHI

TQ9-98-232D

(9/17)

Receiver pin allocation

No.

Symbol

HV / NIC

NUC

Description

High Voltage ¹⁾

No.

Symbol

Description

NUC

No user connection

Loss of Power Alarm ³⁾

Ground ²⁾

OILV / NIC Optical Input Light Voltage

LPA

VCC

NUC

Positive power supply

No user connection

Ground ²⁾

GND

Cko-

False clock output

True clock output ⁶⁾

Ground ²⁾

GND

Cko+

GND

VCC

GND

Ground ²⁾

NIC/VEE

GND

Negative power supply⁷⁾

Ground ²⁾

Positive power supply

Ground

GND

Do+

GND

Ground ²⁾

True data output

False data output

Ground ²⁾

GND

Ground ²⁾

Do-

GND

Ground ²⁾

GND

DTV / NIC Decision Threshold Voltage

1) : This pin is Not Internally Connected(NIC) in case of the high voltage generator is inside the module.

S-16.1 :NIC , L-16.1 /L-16.2/V-16.2 : NIC

2) : Package is at same potential as GND .

3) : LPA output is a logic level that indicates the presence or absence of a sufficient optical input level.

A logical high level indicates an input optical level too low.

4) : This pin is not internally connected if the amplitude decision threshold is not made adjustable.

S-16.1 :NIC , L-16.1 /L-16.2/V-16.2 : TBD

5) : This pin is not internally connected if the Optical Input Light Voltage functionality is not provided.

6) : The falling edge of Cko+ clock output signal is in the middle of Do+ data pattern .

7) : This pin is Not Internally Connected(NIC) as standard.

This pin is reserved for in case of V= -5.2 V operation or future application.

MITSUBISHI

TQ9-98-232D

(10/17)

General Outline Drawing

Transmitter

NOTE:TOLERANCES UNLESS NOTED +/-0.5

DIMENSIONS ARE IN MILLIMETERS

Note This hole is used for testing by MITSUBISHI.

Recommendation is that the pattern that is faced with this hole on customer board

should be ground or no pattern .

Note : This drawing is in case of FC connector.

MITSUBISHI

TQ9-98-232D

(11/17)

Receiver (S-16.1/IR-1)

Note This hole is used for testing by MITSUBISHI.

Recommendation is that the pattern that is faced with this hole on customer board

should be ground or no pattern .

Note : This drawing is in case of FC connector.

MITSUBISHI

TQ9-98-232D

(12/17)

Receiver (L-16.1/LR-1,L-16.2/LR-2,V-16.2)

Note This hole is used for testing by MITSUBISHI.

Recommendation is that the pattern that is faced with this hole on customer board

should be ground or no pattern .

Note : This drawing is in case of FC connector.

MITSUBISHI

TQ9-98-232D

(13/17)

NOTE

NOTE1

Data / Clock Input interface

NOTE2

Shut Down Command interface

For only ES sample ,MITSUBISHI will inform in case of ;

When open (or low) the module is in the shut down mode

(no optical output power).

When high the module is in the operating mode.

NOTE3

Laser bias / Laser backface monitor interface

MITSUBISHI

TQ9-98-232D

(14/17)

NOTE4

Data / Clock Output interface

CML Output stage

Data/ Clock

50O

Customer logic

reference

NOTE5

Signal detect interface

MITSUBISHI

TQ9-98-232D

(15/17)

Typical performance

S-16.1 Optical eye pattern (wide band)

S-16.1 Optical eye pattern (Mask)

MITSUBISHI

TQ9-98-232D

(16/17)

S-16.1 Receiver sensitivity (back to back)

MITSUBISHI

TQ9-98-232D

(17/17)

Note

MITSUBISHI ELECTRIC. reserves the right to make changes to the products or information

contained herein without notice.

Customer versions are available for large quantities.

History

Revision D 2.666 Gb/s version added

(12/17) APD Receiver outline changed

(16/17) (8/17) Shut Down Command Foe ES, Polarity is inverted

The end of document

MF-2500SRB-002WA [MITSUBISHI]

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