AFCT-701SDZ Avago Technologies US Inc., AFCT-701SDZ Datasheet

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... The Avago AFCT-701SDZ transceiver is part of a family of SFP+ products. This transceiver utilizes Avago’s 1310nm DFB and PIN Detector technology to provide an IEEE 10Gb Ethernet design compliant with the 10GBASE-LR standard. The AFCT-701SDZ transceiver is designed to enable 10Gb Ethernet equipment designs with very high port density based on the new electrical and mechani- cal specification enhancements to the well known SFP specifications developed by the SFF Committee. These ...

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... The fault isolation feature allows a host to quickly pin- point the location of a link failure, minimizing downtime. For optical links, the ability to identify a fault at a local device, remote device or cable plant is crucial to speed- ing service of an installation. AFCT-701SDZ real-time monitors of Tx_Bias, Tx_Power, Vcc, Temperature and Rx_Power can be used to assess local transceiver current operating conditions. In addition, status flags TX_DIS- ABLE and Rx Loss of Signal (LOS) are mirrored in memory and available via the two-wire serial interface ...

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... Transmit Disable (TX_DISABLE) The AFCT-701SDZ accepts an LVTTL compatible transmit disable control signal input which shuts down the trans- mitter optical output. A high signal implements this function while a low signal allows normal transceiver op- eration. In the event of a fault (e.g. eye safety circuit ac- tivated), cycling this control signal resets the module as depicted in Figure 6. An internal pull up resistor disables the transceiver transmitter until the host pulls the input low ...

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... The AFCT-701SDZ interfaces with the host circuit board through the twenty contact SFP+ electrical connector. See Table 2 for contact descriptions. The module edge connector is shown in Figure 4. The host board layout for this interface is depicted in Figure 8. The AFCT-701SDZ high speed transmit and receive in- terfaces require SFF-8431 compliant signal lines on the host board. To simplify board requirements, biasing re- sistors and AC coupling capacitors are incorporated into the SFP+ transceiver module (per SFF-8431) and hence are not required on the host board. The TX_DISABLE, TX_FAULT and RX_LOS signals require LVTTL signals on the host board (per SFF-8431) if used ...

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... US CDRH and EU TUV certificates are listed in table 1. Flammability The AFCT-701SDZ optical transceiver is made of metal and high strength, heat resistant, chemical resistant and UL 94V-0 flame retardant plastic. ...

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Table 1. Regulatory Compliance Feature Test Method Electrostatic Discharge (ESD) MIL-STD883C Method 3015.4 to the Electrical Contacts JEDEC DESD22-A11-4-B Electrostatic Discharge (ESD) IEC 61000-4-2 to the Duplex LC Receptacle Life Traffic ESD Immunity IEC 61000-4-2 Life Traffic ESD Immunity IEC 61000-4-2 Electromagnetic FCC Class B Interference (EMI) CENELEC EN55022 Class B (CISPR 22A) VCCI Class 1 RF Immunity IEC 61000-4-3 Laser Eye Safety and US FDA CDRH AEL Class 1 Equipment Type Testing ...

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TX_DISABLE TX_FAULT SERDES IC PROTOCOL IC LOSS OF SIGNAL RS0 RS1 MODULE DETECT SCL SDA Figure 2. Typical application configuration 7 4 kΩ 4.7uH Host DCR=0.15 Vcc 0 .1µF 4.7uH . DCR=0.15 0 .1µF 4 ...

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Table 2. Contact Description Contact Symbol Function/Description 1 VeeT Transmitter Signal Ground 2 TX_FAULT Transmitter Fault (LVTTL-O) – High indicates a fault condition 3 TX_DISABLE Transmitter Disable (LVTTL-I) – High or open disables the transmitter 4 SDA Two Wire Serial Interface Data Line (LVCMOS – I/O) (same as MOD-DEF2 in INF-8074) 5 SCL Two Wire Serial Interface Clock Line (LVCMOS – I/O) (same as MOD-DEF1 in INF-8074) 6 MOD_ABS Module Absent (Output), connected to VeeT or VeeR in the module 7 RS0 Rate Select 0 - Not used, Presents high input impedance. 8 RX_LOS Receiver Loss of Signal (LVTTL-O) 9 RS1 ...

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Table 3. Absolute Maximum Ratings Stress in excess of any of the individual Absolute Maximum Ratings can cause immediate catastrophic damage to the module even if all other parameters are within Recommended Operating Conditions. It should not be assumed that limiting values of more than one parameter can be applied concurrently. Exposure to any of the Absolute Maxi- mum Ratings for extended periods can adversely affect reliability. Parameter Storage Temperature Case Operating Temperature Relative Humidity Supply Voltage Low Speed Input Voltage Two-Wire Interface Input Voltage High Speed Input Voltage, Single Ended High Speed Input Voltage, Differential Low Speed Output Current Optical Receiver Input Average Power Note; 1. The module supply voltages, VccT and VccR must not differ by more than 0 damage to the device may occur. Table 4. Recommended Operating Conditions Recommended Operating Conditions specify parameters for which the electrical and optical characteristics hold unless otherwise noted. Optical and electrical charactristics are not defined for operation outside the Recommend- ed Operating Conditions, reliability is not implied and damage to the module may occur for such operation over an extended period of time. The SFP+ Module Power Supply Requirements are specified in the latest revision of SFF 8431 MSA. Parameter Case Operating Temperature Module Supply Voltage Signal Rate Power Supply Noise Tolerance including Ripple ...

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Table 5. Low Speed Signal Electrical Characteristics The following characteristics are defined over the Recommended Operating Conditions unless otherwise noted. Typical values are for Tc = 40°C. VccT and VccR = 3.3 V. Parameter Module Supply Current Power Dissipation TX_FAULT, RX_LOS TX_DISABLE Notes: 1. Supply current includes both VccT and VccR connections. 2. Measured with a 4.7 k Ω load to VccHost. 3. TX_DISABLE has an internal 4.7 kΩ kΩ pull-up to VccT Table 6. High Speed Signal Electrical Characteristics The following characteristics are defined over the Recommended Operating Conditions unless otherwise noted. Parameter Tx Input Differential Voltage, |( (TD-)| Tx Input AC Common Mode Voltage Tolerance Tx Input Differential S-parameter (100 Ω Ref.) Tx Input Reflected Differential to Common Mode Conversion (25 Ω Ref.) Rx Output Differential Voltage, |( (RD-)| Rx Output Termination Mismatch @ 1MHz ...

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NORMALIZED TIME (UNIT INTERVAL) Figure 4a. Receiver Electrical Optical Eye Mask Definition Table 7. Two-Wire Interface Electrical Characteristics Parameter Symbol Host Vcc Range VccHTWI SCL and SDA ...

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Table 8. Optical Specifications The following characteristics are defined over the Recommended Operating Conditions unless otherwise noted. Parameter Transmitter Laser OMA output power Laser mean output power Laser off power Extinction ratio Transmitter and dispersion penalty (TDP) Center Wavelength Side Mode Suppression Ratio - SMSR RIN12OMA Optical Return Loss Tolerance Transmitter Output Eye Mask Receiver Stressed sensitivity (OMA) Receive sensitivity (OMA) Receive Power (Pave) Overload Reflectance Center Wavelength RX_LOS (OMA) De-Assert RX_LOS (OMA) Assert RX_LOS (OMA) Hysteresis General Specification Considerations (Notes): 1. IEEE 802.3ae Clause 52 compliant. 2. Vertical eye closure and stressed eye jitter are test conditions for stressed sensitivity (OMA) measurements 3. Loss of Signal (LOS) detection responds only to OMA and the indicator will respond unpredictably with the application of unmodulated optical power. 12 Minimum Typical ...

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Table 9. Control Functions: Low Speed Signals Timing Characteristics The following characteristics are defined over the Recommended Operating Conditions unless otherwise noted. Parameter TX_DISABLE Assert Time TX_DISABLE Negate Time Time to initialize, including reset of TX_FAULT TX_FAULT Assert Time TX_DISABLE to Reset RX_LOS Assert Time RX_LOS Deassert Time Notes: 1. Time from rising edge of TX_DISABLE to when the optical output falls below 10% of nominal interval between assertions of TX_ DISABLE is required. 2. Time from falling edge of TX_DISABLE to when the modulated optical output rises above 90% of nominal. 3. Time from power on or falling edge of TX_DISABLE to when the modulated optical output rises above 90% of nominal and the Two-Wire interface is available. 4. From power on or negation of TX_FAULT using TX_DISABLE. 5. Time TX_DISABLE must be held high to reset the laser fault shutdown circuitry. 6. Time from loss of optical signal to Rx_LOS Assertion. 7. Time from valid optical signal to Rx_LOS De-Assertion. Table 10. Control Functions: ...

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Table 11. Transceiver Digital Diagnostic Monitor (Real Time Sense) Characteristics The following characteristics are defined over the Recommended Operating Conditions unless otherwise noted. Parameter Transceiver Internal Temperature Transceiver Internal Supply Voltage Transmitter Laser DC Bias Current Transmitted Average Optical Output Power Received Average Optical Input Power > 2. TX_FAULT TX_DISABLE TRANSMITTED SIGNAL t_init t-init: TX DISABLE NEGATED ...

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... Notes: 1. The IEEE Organizationally Unique Identifier (OUI) assigned to Avago Technologies is 00-17-6A (3 bytes of hex). 2. Laser wavelength is represented in 16 unsigned bits. 3. Addresses 63 and 95 are checksums calculated (per SFF-8472) and stored prior to product shipment. 4. Addresses 68-83 specify the AFCT-701SDZ ASCII serial number and will vary on a per unit basis. 5. Addresses 84-91 specify the AFCT-701SDZ ASCII date code and will vary on a per date code basis. 15 Byte # Data Notes Decimal Hex 37 00 Hex Byte of Vendor OUI 38 17 Hex Byte of Vendor OUI ...

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... Temperature (Temp) is decoded bit signed twos compliment integer in increments of 1/256°C. 2. Supply Voltage (Vcc) is decoded bit unsigned integer in increments of 100 µV. 3. Laser bias current (Tx Bias) is decoded bit unsigned integer in increments of 2 µA. 4. Transmitted average optical power (Tx Pwr) is decoded bit unsigned integer in increments of 0.1 µW. 5. Received average optical power (Rx Pwr) is decoded bit unsigned integer in increments of 0.1 µW. 6. Bytes 56-94 are not intended for use with AFCT-701SDZ, but have been set to default values per SFF-8472. 7. Byte checksum calculated (per SFF-8472) and stored prior to product shipment. 16 Byte # Decimal ...

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... Digital state of the SFP RX_LOS Output (1 = RX_LOS asserted) 0 Data Ready (Bar) Indicates transceiver is powered and real time sense data is ready Ready) N otes: 1. The response time for soft commands of the AFCT-701SDZ is 100 msec as specified by SFF-8472. 2. Bit 6 is logic OR’d with the SFP TX_DISABLE input on contact 3; either asserted will disable the SFP+ transmitter. Table 15. EEPROM Serial ID Memory Contents – Alarms and Warnings (Address A2h, Bytes 112, 113, 116, 117) Byte Bit Flag Bit Name Description ...

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TCASE REFERENCE POINT LATCH COLOR BLUE: 10GBASELR 6. Figure 6. Module drawing Label format For product information and a complete list of distributors, please go to our website: Avago, Avago Technologies, and the A logo are trademarks of ...