INFINEON V23870-A2112-K100

Preliminary Data Sheet
V23870-A211x-xx00(*)
Bi-Directional Pigtail SFF Transceiver
155 Mb/s, 1310 nm Tx / 1310 nm Rx
FEATURES
• Integrated Beam Splitter
• Bi-Directional Transmission in a single optical
window
• Single fiber solution, singlemode fiber pigtail
with different connector options
• Data rate up to 155 Mbit/s
• FP Laser Diode with Multi-Quantum Well
structure, wavelength 1310 nm
• Class 1 Laser Product
• Incorporated laser driver and PIN-TIA Receiver
with post-amplifier
• 2x5 Small Form Factor Package with
Multisource Footprint
Absolute Maximum Ratings
Operating case temperature
V23870-A2111-xx00 ....................... 0 to 70 °C
V23870-A2112-xx00 .................... -40 to 85 °C
Storage Ambient Temperature ................. -40 to 85 °C
Supply voltage .................................................. 3.53 V
Soldering Conditions Temp/Time
Iron Soldering only .................... 400 °C / 10 s
*) Ordering Information
V23870 - A211x - xx00
Average Launched Power:
2: -8 ... -13 dBm
Temperature Range:
1: 0 ... +70 °C
2: -40 ... +85 °C
Connector:
A: Pigtail Only
B: SC
C: SC/APC 8°
F: MU
H: MU-J
K: LC
Coupling:
(Tx/Rx, Signal Detect)
1: AC/AC, PECL SD
2: DC/DC, PECL SD
5: AC/AC, TTL SD
6: DC/DC, TTL SD
Fiber Optics
JULY 2002
DESCRIPTION
The Infineon BIDI® transceiver – part of Infineon’s Small Form Factor transceiver family – is based on the Physical
Medium Depend (PMD) sublayer and baseband medium.
Infineon's BIDI-TRX is designed to handle multiple data rates and can be designed into Fast Ethernet, FDDI, Fiber
Channel, ATM-155, SDH STM-1, SONET OC-3, CCTV and other applications as well as different FTTx
applications according to the 100 Mbps EFM standard (IEEE 802.3ah). It is suitable for both, short haul
applications and distances of 20 km and beyond.
The appropriate fiber optic cable is the 9µm singlemode fiber pigtail with different connector options.
The Infineon BIDI transceiver is a single unit comprised of a transmitter, a receiver, WDM filter or beam splitter,
and a singlemode fiber pigtail. This design frees the customer from many alignment and PC board layout
concerns.
This transceiver operates at 155Mb/s from a single power supply (+3.3 V). The full differential data inputs and
outputs are PECL and LVPECL compatible.
Functional Description of 2x5 Pin Row Transceiver
This transceiver is designed to transmit and receive serial data via a singlemode cable.
Functional Diagram
Fiber Optics
2
V23870-A2111/2-xx00 BIDI Pigtail SFF transceiver
The receiver component converts the optical serial data into PECL compatible electrical data (RD and RDnot). The
Signal Detect (SD, active high) shows whether an optical signal is present.
The transmitter converts PECL compatible electrical serial data (TD and TDnot) into optical serial data. Data lines
are differentially 100Ω terminated.
The transmitter contains a laser driver circuit that drives the modulation and bias current of the laser diode. The
currents are controlled by a power control circuit to guarantee constant output power of the laser over temperature
and aging.
The power control uses the output of the monitor PIN diode (mechanically built into the laser coupling unit) as a
controlling signal, to prevent the laser power from exceeding the operating limits.
Single fault condition is ensured by means of an integrated automatic shutdown circuit that disables the laser
when it detects laser fault to guarantee the laser Eye Safety.
The transceiver contains a supervisory circuit to control the power supply. This circuit makes an internal reset
signal whenever the supply voltage drops below the reset threshold. It keeps the reset signal active for at least
140 milliseconds after the voltage has risen above the reset threshold. During this time the laser is inactive.
The laser can be disabled by the TxDis input.
Technical Data
The electro-optical characteristics described in the following tables are valid only for use under the recommended
operating conditions.
Recommended Operating Conditions
Symbol
Min.
Operating Temperature Range at Case
1
TC
Operating Temperature Range at Case
2
Power Supply Voltage
Typ.
Max.
Unit
0
+70
°C
TC
-40
+85
°C
VCC-VEE
3.1
3.53
V
VDIFF
250
1600
mV
λC
1500
1600
nm
3.3
Transmitter
Data Input Differential Voltage
Receiver
Input Center Wavelength
1
2
For V23870-A2111-xx00
For V23870-A2112-xx00
Fiber Optics
3
V23870-A2111/2-xx00 BIDI Pigtail SFF transceiver
Transmitter
Symbol
Min.
Average Launched Power
Pout,max
-13
Emission wavelength center of range3
λ
Spectral bandwidth (RMS)
σλ
3.0
nm
Temperature coefficient of emission wavelength
∆λ(T)
0.5
nm/K
Extinction Ratio (Dynamic)
ER
Jitter (pkpk)
JPP
1
ns
Rise Time (20% - 80%)
tR
2.5
ns
5
tF
2.5
ns
-120
dB/√Hz
4
Fall Time (20% - 80%)
1270
Typ.
-8
dBm
1350
8.5
nm
dB
ITU G.957 mask pattern
RIN Noise
RIN
5
Unit
1310
Eye diagram
Reset Threshold
Max.
VTH
2.5
2.75
2.99
V
Reset Timeout5
tRES
140
240
560
ms
Power on Delay
tPWR_ON
88
111
140
ms
Shut Off Time for TxDis
tDIS
6
ms
Max Tx Supply Current
ITX
135
mA
3
4
5
90
Popt = Pout,max at T=25°C
Rise and fall times are measured with the OC-3 filter ON
Laser power is shut down if power supply is below VTH and switch on if power supply is above VTH after tRES.
Fiber Optics
4
V23870-A2111/2-xx00 BIDI Pigtail SFF transceiver
Receiver
Symbol
Receiving wavelength center of range
λR
6
Sensitivity (Average Power)7
PIN
Saturation (Average Power)
PSAT
Signal Detect Assert Level
8
Signal Detect Deassert Level
Min.
1270
Typ.
1310
Signal Detect Hysteresis
1350
-21
-3.0
-22
PSDD
-31
PSDA-
0.5
Unit
nm
dBm
dBm
PSDA
9
Max.
dBm
dBm
4
6
dB
PSDD
Signal Detect Assert Time
tASS
100
µs
Signal Detect Deassert Time
tDAS
350
µs
1.0
V
1.5
ns
130
mA
Data Output Differential Voltage
10
VDIFF
Rise/Fall Time
0.8
tR; tF
Max Rx Supply Current
11
IRX
Module Electro-Optical Characteristics
Optical Isolation
0.4
Symbol
12
ORL
60
Min.
14
Typ.
Max.
Unit
dB
6
Popt = Pout,max at T=25°C
Minimum average optical power at which the BER is less than1x10E–10. Measured with a 1023 –1 NRZ PRBS as recommended by ANSI
T1E1.2, SONET OC-3, and ITU G.957.
8
An increase in optical power above the specified level will cause the SIGNAL DETECT output to switch from a Low state to a High state.
9
A decrease in optical power below the specified level will cause the SIGNAL DETECT to change from a High state to a Low state.
10
AC/AC for data. Load 50Ω to GND or 100Ω differential. For dynamic measurement a tolerance of 50mV should be added.
11
Supply current excluding Rx output load.
12
Source wavelength is 1550 nm, BiDi Tx and Rx is Off
7
Fiber Optics
5
V23870-A2111/2-xx00 BIDI Pigtail SFF transceiver
Fiber Data
The mechanical fiber characteristics are described in the following table.
Fiber Characteristics
Min.
Typ.
Max.
8
9
10
µm
123
125
127
µm
Mode Field/Cladding Concentricity Error
1
µm
Cladding Non-circularity
2
%
Mode Field Non-circularity
6
nm
Mode Field Diameter
Cladding Diameter
Cut off Wavelength
1270
Unit
nm
Jacket Diameter
0.8
Bending Radius
30
mm
Tensile Strength Fiber Case
5
N
Length
Fiber Optics
0.8
6
1
1.2
mm
m
V23870-A2111/2-xx00 BIDI Pigtail SFF transceiver
Pin Description
Pin Name
VEEr
Receiver Signal Ground
VCCr
Receiver Power Supply
SD
Signal Detect
Level/ Logic
N/A
N/A
see options
on page 1
Pin#
1
2
3
RD–
RD+
VCCt
VEEt
TxDis
PECL
PECL
N/A
N/A
TTL-Input
4
5
6
7
8
PECL
PECL
N/A
9
10
MS1
MS2
N/A
T1
T2
T3
T4
Received Data Out Not
Received Data Out
TD+
TD–
MS
Transmitter
Disable/Enable
Transmit Data
Transmit Data Not
Mounting Studs
HL
Housing Leads
Fiber Optics
7
Description
Normal Operation: Logic “1” Output, represents
that light is present at receiver input
Fault Condition: Logic “0” Output
Recommended Termination of 510 Ω to Veer for
PECL
Transmitter Power Supply
Transmitter Signal Ground
A low/open signal switches the laser on.
A high signal switches the laser off.
Transmitter Data In
Transmitter Data In Not
Mounting Studs are provided for transceiver
mechanical attachment to the
circuit board.
The transceiver Housing Leads are provided for
additional signal grounding. The
holes in the circuit board must be included and
be tied to signal ground.
V23870-A2111/2-xx00 BIDI Pigtail SFF transceiver
Technical drawings
9.71
.382
13.50
.531
3
.118
12
.472
0.38
.015
1.78
.070
0.25
.010
7.11
.280
TEMPERATURE
MEASUREMENT
LOCATION
49.01
1.930
3.92
.154
2X
17.79
.700
1.07
.042
4.56
.180
20.19
.795
3.10
.122
+10
0
+.394
.877
- .000
22.27
13.50
.531
10.16
.400
1.40
.055
20X
0.81
.032
5.15
.203
21.34
.840
23.88
.940
1.84
.072
13.34
.525
NOTES:
1. FIBER AND CONNECTOR NOT SHOWN.
2. REFER TO PACKAGE OUTLINE OF THE SMALL
FORM FACTOR TRANSCEIVER MULTISOURCE
AGREEMENT FOR DIMENSIONS NOT SHOWN.
15.75
.620
FRONT OF BEZEL
Circuit Board Layout
Recommended PCB Thickness 0.1 (2.54) max.
Fiber Optics
8
V23870-A2111/2-xx00 BIDI Pigtail SFF transceiver
EYE SAFETY
This laser based singlemode transceiver is a Class 1 product. It complies with IEC 60825-1 and FDA 21 CFR
1040.10 and 1040.11. To meet laser safety requirements the transceiver shall be operated within the maximum
operating limits.
Caution
All adjustments have been made at the factory prior to shipment of the devices. No maintenance or
alteration to the device is required.
Tampering with or modifying the performance of the device will result in voided product warranty.
Note: Failure to adhere to the above restrictions could result in a modification that is considered an act of
“manufacturing,” and will require, under law, recertification of the modified product with the U.S. Food and Drug
Administration (ref. 21 CFR 1040.10 (i)).
APPLICATION NOTES
Transceiver Assembly/Soldering
Recommended requirements
• avoid temperatures on fiber and connector above 85°C
• only iron soldering permitted
• single pin or simultaneous pin soldering valid
Type
Conditions
Iron - soldering
iron tip temp.
solder time
Fiber Optics
Standard
< 400 °C IEC 68 2-20 test Tb, methode 2
< 10 sec
9
V23870-A2111/2-xx00 BIDI Pigtail SFF transceiver
AC/AC coupling
Vcc
3.3V
C3
L1
Vcc
SerDes
3.3V
L2
C1
C2
TxVcc (6) RxVcc (2)
TxVee (7)
Vcc
TD+ (9)
Laser
Driver
Ser Data
Out+
100
Ohms
TD- (10)
R1
TxDis (8)
SD (3)
Limiting
Amplifier
R2
ECL/PECL
Driver
Ser Data
Out-
Serializer/
Deserializer
SD
R7
R3
R4
Rd- (4)
Ser Data InReceiver
Rd+ (5)
SFF Transceiver
Ser Data In+
RxVee (1)
R5
R6
L1, L2:
1...4.7 µH
C1, C2, C3:
4.7...10 µF
R1, R2:
biasing of outputs depending on Serializer
R3, R4:
127 Ohms
R5, R6:
80 Ohms
R7:
510 Ohms for PECL signal detect, open for TTL
Place R1/2/3/4/5/6 as close to SerDes chip as possible
Fiber Optics
10
V23870-A2111/2-xx00 BIDI Pigtail SFF transceiver
DC/DC coupling
Vcc
3.3V
C3
L1
Vcc
SerDes
3.3V
L2
C1
C2
TxVcc (6) RxVcc (2)
TxVee (7)
R6
R7
Vcc
C6
TD+ (9)
Laser
Driver
Ser Data
Out+
R9
TD- (10)
R4
R5
R8
TxDis (8)
SD (3)
Limiting
Amplifier
ECL/PECL
Driver
C7
Ser Data
Out-
Serializer/
Deserializer
SD
R10
C4
Rd- (4)
Ser Data InReceiver
R1
Rd+ (5)
Ser Data In+
C5
SFF Transceiver
RxVee (1)
R2
R3
L1, L2:
1...4.7 µH
C1, C2, C3:
4.7...10 µF
C4, C5, C6, C7: 100 nF
R1:
100 Ohms
R2, R3:
150 Ohms
R4, R5:
biasing of outputs depending on Serializer
R6, R7:
127 Ohms
R8, R9:
80 Ohms
R10:
510 Ohms for PECL signal detect, open for TTL
Place R1/4/5 as close to SerDes as possible
Place R2/3 as close to transceiver as possible
Fiber Optics
11
V23870-A2111/2-xx00 BIDI Pigtail SFF transceiver