Form Factor: SFP+
Reach: 30m
Cable Type: CAT7
Rate Category: 10GBase
Interface Type: T DDM: Yes
Connector Type: RJ45
Brocade-Foundry SFPP-10GE-T Product Features
Supports Links up to 30m using Cat 6a/7 Cable
SFF-8431 and SFF-8432 MSA Compliant
IEEE 802.3az Compliant
Low Power Consumption (2.5W MAX @ 30m)
Fast Retrain EMI Cancellation Algorithm
Low EMI Emissions
I2C 2-Wire Interface for Serial ID and PHY Register Access
Auto-negotiates with another SFPP-10GE-T PHYs
Supports 100/1000Base-T using Cat 5e cable or better
MDI/MDIX Crossover
Multiple Loopback Modes for Testing and Troubleshooting
Built-in Cable Monitoring and Link Diagnostic Features
Cable Length Measurements
Opens/Shorts
Robust Die Cast Housing
Bail Latch Style ejector mechanism
Unshielded and Shielded cable support
Operating Temperature (Extended): -5 to +85°C
Brocade-Foundry SFPP-10GE-T Electrical PIN Definitions
PIN | Logic | Symbol | Name/Description | Plug Sequence | Note |
1 | VeeT | Transmitter Ground | 1 | 1 | |
2 | LVTTL-O | Tx_Fault | Transmitter Fault | 3 | |
3 | LVTTL-I | Tx_Disable | Transmitter Disable | 3 | |
4 | LVTT-I/O | SDA | 2-wire Serial Interface Data Line | 3 | |
5 | LVTT-I/O | SCL | 2-Wire Serial Interface Clock | 3 | |
6 | Mod_ABS | Module Absent, connect to VeeT or VeeR in the module | 3 | ||
7 | LVTTL-I | RS0 | Rate Select 0 | 3 | |
8 | LVTTL-O | Rx-LOS | Receiver Loss of Signal Indication | 3 | |
9 | LVTTL-I | RS1 | Rate Select 1 | 3 | |
10 | VeeR | Receiver Ground | 1 | 1 | |
11 | VeeR | Receiver Ground | 1 | 1 | |
12 | CML-O | RD- | Receiver Inverted Data Output | 3 | |
13 | CML-O | RD+ | Receiver Non-Inverted Data Output | 3 | |
14 | VeeR | Receiver Ground | 1 | 1 | |
15 | VccR | Receiver 3.3V Supply | 2 | ||
16 | VccT | Transmitter 3.3V Supply | 2 | ||
17 | VeeTTD+ | Transmitter Ground | 1 | 1 | |
18 | CML-I | TD+ | Receiver Inverted Data Output | 3 | |
19 | CML-I | TD- | Transmitter Inverted Data Input | 3 | |
20 | VeeT | Module Transmitter Ground | 1 | 1 |
Brocade-Foundry SFPP-10GE-T Latch Requirements
The SFP transceiver latch should be mechanically robust and designed to prevent unintentional unlatching during insertion or extraction of the transceiver cable. The transceiver is designed with a “Bail type ejector latch mechanism” that allows the SFP module to be easily released from the cage, when the adjacent SFP ports in both rows are also populated and regardless of whether the SFP module is placed in the lower or upper row. The latch shall also pass the “wiggle” RJ45 connector stress test.
Measurement | Min | Max | Units | Comments |
SFP transceiver insertion | N/A | 18 | Newtons | Measure without the force from any cage kick-out springs. Module to be inserted into nominal cage. |
SFP transceiver extraction | N/A | 12.5 | Newtons | Measure without the force from any cage kick-out springs. Module to be inserted into nominal cage. |
SFP transceiver retention | 90 | 170 | Newtons | No functional damage to module below 90N. |
Insertion/removal cycles, SFP transceiver | 50 | N/A | Cycles | No functional damage to module, cage or connector. |
Absolute Maximum Operating Conditions
Parameter | Symbol | Min | Max | Units | Notes |
Storage temperature | Ts | -40 | 85 | °C | |
Case operating temp (Extended) | Tc | -5 | 85 | °C | |
Relative humidity | RH | 5 | 95 | % | |
Supply voltage (3.3V) | Vcc | 3.6 | VDC | ||
Low speed input voltage | -0.5 | Vcc+0.3 | V | ||
Two-wire interface input voltage | -0.3 | Vcc+0.5 | V |
Recommended Operating Conditions
Parameter | Symbol | Min | Typ | Max | Units | Notes |
Supply voltage (3.3V) | Vcc | 3.135 | 3.3 | 3.465 | VDC | |
Power (30m @ 25 °C ambient) | 2.3 | 2.5 | W |
REGULATORY REQUIREMENTS
The SFP transceiver installed into the host system requires meeting compliance requirements listed in this paragraph. In order to achieve this, the module must be evaluated in considering its use in the equipment designs. Unless otherwise specified, the transceiver module shall meet the current version, at the time of manufacturing, of the applicable EMI/EMC specifications for telecommunication network and information technology/multimedia equipment.
RADIATED EMISSION (RE)
KHz – 18.0 GHz is recommended frequency range for radiated emission testing. The 10G Base-T CuSFP transceiver shall meet the applicable FCC Part 15 emission requirements.
10G Base-T CuSFP transceiver minimum emission requirements are:
Class B radiated emission requirements by using shielded cables at least 4dB margin.
ELECTROSTATIC DISCHARGE (ESD)
In addition, the CuSFP module or host platform shall not show susceptibility to conducted immunity when applied to the interface cable per the requirements of IEC 6100-4-2:
Contact ESD only to the accessible portions of the module (i.e. front panel connector receptacle). 8 kV - Air Discharge and 4 kV – Contact discharge.
Criteria B (see paragraph 6.7 for Criteria’s definition) should be used as a measurable effect from ESD applied (25 discharges by polarity – both air/contact) to the system used with CuSFP modules
TRAFFIC GENERATION AND SUSCEPTIBILITY CRITERIA
TRAFFIC GENERATION AND MONITORING.
A minimum 50% utilization will should be established for preliminary investigation when possible, with final evaluation being performed with a worst-case utilization.
SUSCEPTIBILITY CRITERIA
The disturbances will be applied to the system as a whole. Data losses will be reported according to the following performance criteria.
PERFORMANCE CRITERIA A
During the test and after the test, system with Cu SFP module shall continue to operate:
Without degradation resulting in no greater than 1% of packets per second dropped,
With zero requests for retry, beyond requests resulting from the 1% per second allowable data loss
With no degradation in the data transmission rate, beyond requests resulting from the 1% per second allowable data loss
Without protocol failure
Without loss of link
Without alarm signaling triggered.
Monitoring Method
The Traffic Generator will be monitored. The link, speed, retry rates, etc. during the test will be reviewed by equipment status logs after the test, and monitored by LED observation during the test.
PERFORMANCE CRITERIA B
Error rate, request for retry and speed of data transmission rate may be degraded during the application of the test. Degradation of the performance as described in criteria A is permitted provided that the normal operation of the EUT is self- recoverable to the condition immediately before the application of the test. In these cases, operator response is not permitted to re-initiate an operation.
Monitoring Method
The Traffic Generator will be monitored. The link, speed, retry rates, etc. during the test will be reviewed by equipment status logs after the test, and monitored by LED observation during the test.
PERFORMANCE CRITERIA C
Degradation of the performance as described in criteria A is permitted provided that the normal operation of the EUT is self- recoverable to the condition immediately before the application of the test or can be restored after the test by the operator.
Monitoring Method:
The Traffic Generator will be monitored. The link, speed, retry rates, etc. during the test will be reviewed by equipment status logs after the test, and monitored by LED observation during the test.
FLAMMABILITY
The PCB of the SFP module shall be min. V-0 UL flame rated. Applicable standards: UL/CSA 60950 and IEC 60950.
ENVIRONMENTAL AND QUALITY REQUIREMENTS
ACCELERATED AGING
The SFP+ transceiver module shall be subjected to an accelerated aging test that exposes the module to 85C case temperature while being powered at 3.3V for 2000 hours.
Failure criteria
The product is considered to have failed this test if any of the following occurred:
Failure of test unit to perform ping or traffic test.
Excessive corrosion of components.
RELATIVE HUMIDITY (NON-OPERATIONAL)
The SFP+ transceiver module shall be subjected to the temperature and humidity profile as per MIL STD 202G Method 103B,
Test description
The module shall be subjected to the temperature and humidity profile of 85C/85% RH for 1000 hours. The product shall be non- operational during this entire period.
Failure criteria
The product is considered to have failed this test if any of the following occurred:
Failure of test unit to perform ping or traffic test.
Excessive corrosion of components.
SHOCK AND VIBRATION
16 10G Base-T SFP+ copper transceivers shall be subject to mechanical shock test and vibration test
Mechanical shock test
The mechanical shock test shall use the following specification:
A half-sine wave shock shall be applied on the DUT, 5 times per direction for 6 directions.
Peak acceleration of the input 1500G. Pulse width of half-sine wave 0.5ms.
Vibration test
The vibration test shall use the following specification:
A random vibration input for a period of 4 min per cycle, 4 cycle per axis.
The input acceleration level shall be 20G over the frequency band of 20 to 2000 Hz.
Failure criteria:
The product is considered to have failed this test if any of the following occurred:
Failure of test unit to perform ping or traffic test;
Excessive corrosion of components.
TEMPERATURE CYCLING
Thirty-Two Modules shall be place in a temperature cycling chamber (16 operational and 16 non-operational). The temperature extremes shall be -5°C to +85°C. The dwell time at each temperature extreme shall be 10 minutes. The transition time between each temperature extreme shall be 8 minutes. 100 thermal cycles shall be complete. There shall be no evidence of any electrical or physical degradation to the samples, as a result of the thermal cycling.
Licensing
The following U.S. patents are licensed by Finisar to FluxLight, Inc.:
U.S. Patent Nos: 7,184,668, 7,079,775, 6,957,021, 7,058,310, 6,952,531, 7,162,160, 7,050,720