AFBR-57R6APZ Avago Technologies US Inc., AFBR-57R6APZ Datasheet
AFBR-57R6APZ
Specifications of AFBR-57R6APZ
Available stocks
Related parts for AFBR-57R6APZ
AFBR-57R6APZ Summary of contents
Page 1
... Transmitter Faults (TX_FAULT), and monitor for Receiver Loss of Signal (RX_LOS). Installation The AFBR-57R6APZ can be installed in any SFF- 8074i compliant Small Form Pluggable (SFP) port regardless of host equipment operating status. The AFBR-57R6APZ is hot-pluggable, allowing the module to be installed while the host system is operating and on-line ...
Page 2
... Predictive Failure Identification, Compliance Prediction, Fault Isolation and Component Monitoring. Predictive Failure Identification The AFBR-57R6APZ predictive failure feature allows a host to identify potential link problems before system performance is impacted. Prior identification of link problems enables a host to service an application via “fail over” redundant link or replace a suspect device, maintaining system uptime in the process ...
Page 3
... A2, byte 110, bit 2). Eye Safety Circuit The AFBR-57R6APZ provides Class 1 (single fault tolerant) eye safety by design and has been tested for compliance with the requirements listed in Table 1. The eye safety circuit continuously monitors the ...
Page 4
... It may also result in improper operation and possibly overstress the laser source. Performance degradation or device failure may result. Connection of the AFBR-57R6APZ to a light source not compliant with ANSI FC-PI or IEEE 802.3 specifications, operating above maximum operating conditions manner inconsistent with it’s design and function may result in ...
Page 5
... EMI challenge facing the equipment designer. EMI Immunity (Susceptibility) Due to its shielded design, the EMI immunity of the AFBR-57R6APZ exceeds typical industry standards. Flammability The AFBR-57R6APZ optical transceiver is made of metal and high strength, heat resistant, chemical resistant and UL 94V-0 flame retardant plastic. Test Method Performance MIL-STD-883C Class 1 (> ...
Page 6
Tx_DISABLE Tx_FAULT SERDES IC PROTOCOL IC LOSS OF SIGNAL RATE SELECT 4 MODULE DETECT SCL SDA Figure 2. Typical application configuration 0 0 SFP MODULE HOST ...
Page 7
Table 2. Pin Description Pin Name Function/Description 1 VeeT Transmitter Ground 2 TX_FAULT Transmitter Fault Indication – High indicates a fault condition 3 TX_DISABLE Transmitter Disable – Module electrical input disables on high or open 4 MOD-DEF2 Module Definition 2 ...
Page 8
Table 3. Absolute Maximum Ratings Parameter Storage Temperature Case Operating Temperature Relative Humidity Supply Voltage Low Speed Input Voltage Notes; 1. Absolute Maximum Ratings are those values beyond which damage to the device may occur if these limits are exceeded ...
Page 9
Table 6. Transmitter and Receiver Electrical Characteristics ( VccT, VccR = 3.3 V 10%) C Parameter High Speed Data Input: Transmitter Differential Input Voltage (TD +/-) High Speed Data Output: Receiver Differential Output Voltage ...
Page 10
Table 7. Transmitter Optical Characteristics ( VccT, VccR = 3.3V 10%) C Parameter Modulated Optical Output Power (OMA) (Peak-to-Peak) 4.25 Gb/s Modulated Optical Output Power (OMA) (Peak-to-Peak) 2.125 Gb/s Modulated Optical Output Power (OMA) ...
Page 11
Table 8. Receiver Optical Characteristics ( VccT, VccR = 3.3 V 10%) C Parameter Input Optical Power [Overdrive] Input Optical Modulation Amplitude (Peak-to-Peak) 4.25 Gb/s [Sensitivity] Input Optical Modulation Amplitude (Peak-to-Peak) 2.125 Gb/s [Sensitivity] ...
Page 12
Table 9. Transceiver SOFT DIAGNOSTIC Timing Characteristics ( VccT, VccR = 3.3 V 10%) C Parameter Hardware TX_DISABLE Assert Time Hardware TX_DISABLE Negate Time Time to initialize, including reset of TX_FAULT Hardware TX_FAULT Assert ...
Page 13
Table 10. Transceiver Digital Diagnostic Monitor (Real Time Sense) Characteristics ( VccT, VccR = 3.3 V 10%) C Parameter Transceiver Internal Temperature Accuracy Transceiver Internal Supply Voltage Accuracy Transmitter Laser DC Bias Current Accuracy ...
Page 14
... Addresses 63 and 95 are checksums calculated (per SFF-8472 and SFF-8074) and stored prior to product shipment. 7. Addresses 68-83 specify the AFBR-57R6APZ ASCII serial number and will vary on a per unit basis. 8. Addresses 84-91 specify the AFBR-57R6APZ ASCII date code and will vary on a per date code basis. 14 ...
Page 15
... Transmitted average optical power (Tx Pwr) is decoded bit unsigned integer in increments of 0 Received average optical power (Rx Pwr) is decoded bit unsigned integer in increments of 0 Bytes 56-94 are not intended for use with AFBR-57R5APZ, but have been set to default values per SFF-8472. 7. Byte checksum calculated (per SFF-8472) and stored prior to product shipment. ...
Page 16
... Bit 6 is logic OR’d with the SFP TX_DISABLE input pin 3 ... either asserted will disable the SFP transmitter. 3. AFBR-57R6APZ optimizes for 4.25 G & 2.125 Gb/s performance when asserted and 2.125 G & 1.0625 Gb/s performance when deasserted. Bit 3 is logic OR’d with the SFP RATE_SELECT input pin either asserted will set the SFP transceiver to high bit rate parametric performance. ...
Page 17
Figure 5. Module drawing. 17 ...
Page 18
X Y 16.25 MIN. PITCH B PCB EDGE 5.68 8.58 11.08 16.25 REF. 14.25 2.0 11x 3 3.2 PIN 1 10.93 9.6 0.8 TYP 1.55 0.05 0 Figure 6. SFP host board ...
Page 19
MAX. 11.73 REF 9.8 MAX. PCB Figure 7. SFP Assembly drawing. 0.9 Tcase REFERENCE POINT 10 REF (to PCB) 0.4 (below PCB) DIMENSIONS ARE IN MILLIMETERS CAGE ASSEMBLY 15.25 0.1 10.4 0.1 16.25 0.1 ...
Page 20
Customer Manufacturing Processes This module is pluggable and is not designed for aqueous wash, IR reflow, or wave soldering processes. For product information and a complete list of distributors, please go to our website: Avago, Avago Technologies, and the A ...