MF-2500SRB-003VA [MITSUBISHI]
Receiver, 1-Func;型号: | MF-2500SRB-003VA |
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
PD
VCC
LD
:integrated device
OPT.OUT
Driver IC
SELC
DATAin
Monitoring for
back face
DATAin
CLOCKin
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
PD
DATAout
CLKout
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
DATAou
CLKout
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
V
Supply voltage
Vee
-6.0
TBD
V
mA
High output current
Input voltage
-
-
TBD
V
Storage temperature
Operating case temperature
Soldering Temperature
Soldering Time
Tstg
-40 to +85
deg.C.
deg.C.
deg.C.
sec
class 1:-5 to +75
class 2:-40 to +85
Tc
-
+260
10
-
Relative humidity(non condensation)
Fiber bend radius
-
10 to 80
32
%
-
mm
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
V
Supply voltage
note 1
-
+4.75
+5.25
Power consumption
total
note 2,3
note 5
note 5
note 4
-
SV
-
-
0.8
2.0
1.0
-
W
Vpp
mV
mV/mA
-
*Input sensitivity data and clock voltage
Normalized back face voltage
Monitor bias voltage
0.5
0.8
500
20
-
-
-
-
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
3
Unit
V
-
-
Power consumption ( S-16.1 )
Power consumption ( Others )
*Output data and clock voltage single ended
*Output data and clock voltage differential
*Jitter generation
W
total
-
-
1.3
W
SV
DV
0.3
0.6
0.4
1
Vpp
Vpp
Ulrms
Ulpp
dB
0.8
2
GR-253/ITU-T G783
GR-253/ITU-T G783
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
0
-
12
10
24
dB
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
0
-50
0.3
-
-
-
-
1335
nm
-
-
note9
Snom
Sidle
-
-
ER
-
-4.5
-
-
30
8.2
100
-
-2
-50
0.3
-
0
-40
1
-1.5
-
-
30
8.2
250
-
+3
-40
1
-
-
dBm
dBm
nm
-
note10
-
-
dB
note11
-
-
dB
-
-
-
-
-
24
ps/nm
dB
-
-
24
note12
note13
*Receiver sensitivity
Rsen
-
-20.5 -18.5
-
-29.5
-27.5
dBm
*Receiver overload
Path penalty
Maximum reflectance
note14
Rovr
-
-
0
-
-
+1
0.2
-
-
1
-27
-8
-
-
-7
0.2
-
-
1
-27
dBm
dB
-
-
dB
cond. Symb. Min.
Typ. Max.
Min
22
Typ.
Max
ITU-T/SONET
Optical budget
Transmitter
-
-
-
L-16.2/LR-2
V-16.2
-
-
note8
10
-
24
33
dB
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
0
-50
0.3
-
-
-
-
1565
nm
-
-
note9
Snom
Sidle
-
-
ER
-
-1.5
-
-
30
8.2
1600
-
0
-50
0.3
-
+3
-40
1
-4.5
-
-
30
8.2
2400
-
+3
-40
0.8
-
-
-
dBm
dBm
nm
-
note10
-
-
dB
note11
-
-
dB
-
-
-
-
ps/nm
dB
-
-
24
24
note12
note13
Receiver sensitivity
Rsen
-
-30.5 -28.5
-
-27.5
-25.5
dBm
Receiver overload
Path penalty
Maximum reflectance
note14
Rovr
-
-
-8
-
-
-7
1.3
-
-
2
-27
-9
-
-
-8
1.5
-
-
2
-27
dBm
dB
-
-
dB
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
Optical connector type
Optical connector type
FC
SC
FC
SC
FC
SC
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
TBD
003WA
TBD
TBD
TBD
002VA
TBD
002WA
TBD
004VA
TBD
004WA
TBD
003VA
TBD
003WA
TBD
TBD
TBD
V-16.2
V-16.2
class1
class2
TBD
TBD
TBD
TBD
TBD
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.
1
Symbol
VEE
Description
Negative power supply 4)
Monitoring for back facet PD
current
No.
24
Symbol
VCC
Description
Positive power supply 4)
Ground
2
BACK(+)
23
GND
3
4
5
6
7
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
21
20
19
18
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 /
8
9
LDA
NUC
17
16
15
GND
Di+
Ground
True data input
Ground
10
WSC 7)
/ NIC
GND
No Internal Connection
Ground
11
12
GND
14
13
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.
1
Symbol
HV / NIC
NUC
Description
High Voltage 1)
No.
24
23
22
21
20
19
18
17
16
15
14
13
Symbol
Description
NUC
No user connection
5)
2
No user connection
Loss of Power Alarm 3)
Ground 2)
OILV / NIC Optical Input Light Voltage
3
LPA
VCC
NUC
Positive power supply
No user connection
Ground 2)
4
GND
Cko-
5
False clock output
True clock output 6)
Ground 2)
GND
6
Cko+
GND
VCC
GND
Ground 2)
7
NIC/VEE
GND
Negative power supply7)
Ground 2)
8
Positive power supply
Ground
9
GND
Do+
GND
Ground 2)
10
11
12
True data output
False data output
Ground 2)
GND
Ground 2)
Do-
GND
Ground 2)
4)
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
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