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AFCT-57R5ATPZ

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10
Table 7. Transmitter Optical Characteristics
(T
C
= -10°C to 85°C, VccT, VccR = 3.3 V ± 10%)
Parameter Symbol Minimum Typical Maximum Unit Notes
Modulated Optical Output Power (OMA) Tx,OMA 290 350 μW Note 6
(Peak-to-Peak) 4.25 Gb/s
Modulated Optical Output Power (OMA) Tx,OMA 290 350 μW Note 3
(Peak-to-Peak) 2.125 Gb/s
Modulated Optical Output Power (OMA) Tx,OMA 290 350 μW Note 4
(Peak-to-Peak) 1.0625 Gb/s
Average Optical Output Power Pout -8.4 -3.0 dBm Note 1, 2
Center Wavelength
C
1290 1340 nm Note 3, 4, 6
Spectral Width – rms ,rms nm Note 3, 4, 6
Optical Rise/Fall Time (4.25 Gb/s) tr, tf 90 ps 20% - 80%
RIN
12
(OMA) RIN -118 dB/Hz
Transmitter Contributed Total Jitter TJ 0.25 UI Note 5
(4.25 Gb/s)
60 ps
Transmitter Contributed Total Jitter TJ 0.25 UI Note 5
(2.125 Gb/s)
120 ps
Transmitter Contributed Total Jitter TJ 0.27 UI Note 5
(1.0625 Gb/s)
252 ps
Pout TX_DISABLE Asserted P
OFF
-35
dBm
Notes:
1. Max Pout is the lesser of Class 1 safety limits (CDRH and EN 60825) or receiver power, max.
2. Into 9/125 μm single-mode optical  ber.
3. OMA, center wavelength and spectral width must comply with FC-PI clause 6.3.5, Figure 19 (200-SM-LC-L triple trade-o curve).
4. OMA, center wavelength and spectral width must comply with FC-PI clause 6.3.5, Figure 18 (100-SM-LC-L triple trade-o curve).
5. Contributed DJ is measured on an oscilloscope in average mode with 50% threshold and K28.5 pattern. Contributed TJ is the sum of contributed
RJ and contributed DJ. Contributed RJ is calculated for 1x10
-12
BER by multiplying the RMS jitter (measured on a single rise or fall edge) from
the oscilloscope by 14. Per FC-PI (Table 9 - SM jitter output, note 1), the actual contributed RJ is allowed to increase above its limit if the actual
contributed DJ decreases below its limits, as long as the component output DJ and TJ remain within their speci ed FC-PI maximum limits with
the worst case speci ed component jitter input.
6. OMA, center wavelength and spectral width must comply with FC-PI-2 clause 6.3.5, Figure 20 (400-SM-LC-L triple trade-o curve).
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Table 8. Receiver Optical Characteristics
(T
C
= -10°C to 85°C, VccT, VccR = 3.3 V ± 10%)
Parameter Symbol Min. Typ. Max. Unit Notes
Input Optical Power [Overdrive] P
IN
-3 dBm, avg
Input Optical Modulation Amplitude (Peak-to-Peak) OMA 29 μW, oma Notes 2, 4
4.25 Gb/s [Sensitivity]
Input Optical Modulation Amplitude (Peak-to-Peak) OMA 15 μW, oma Notes 1, 4
2.125 Gb/s [Sensitivity]
Input Optical Modulation Amplitude (Peak-to-Peak) OMA 15 μW, oma Notes 1, 4
1.0625 Gb/s [Sensitivity]
Return Loss 12 dB
Loss of Signal – Assert P
A
13.8 μW, oma
-30 -20.5 dBm, avg Note 3
Loss of Signal – De-Assert P
D
15 μW, oma
-20.0 dBm, avg Note 3
Loss of Signal Hysteresis P
D
- P
A
0.5 dB
Notes:
1. For illustrative purposes, consider the an example where an OMA of 15 μW is approximately equal to an average power of –20 dBm, avg. with
an Extinction Ratio of 9 dB.
2. For illustrative purposes, consider the an example where an OMA of 29 μW is approximately equal to an average power of –17.3 dBm, avg. with
an Extinction Ratio of 9 dB.
3. These average power values are speci ed with an Extinction Ratio of 9 dB. The loss of signal circuitry responds to valid 8B/10B encoded peak to
peak input optical power, not average power.
4. Input Optical Modulation Amplitude (commonly known as sensitivity) requires a valid 8B/10B encoded input.
12
Table 9. Transceiver Timing Characteristics
(T
C
= -10°C to 85°C, VccT, VccR = 3.3 V ± 10%)
Parameter Symbol Minimum Maximum Unit Notes
Hardware TX_DISABLE Assert Time t_o 10 μs Note 1
Hardware TX_DISABLE Negate Time t_on 1 ms Note 2
Time to initialize, including reset of TX_FAULT t_init 300 ms Note 3
Hardware TX_FAULT Assert Time t_fault 100 μs Note 4
Hardware TX_DISABLE to Reset t_reset 10 μs Note 5
Hardware RX_LOS DeAssert Time t_loss_on 100 μs Note 6
Hardware RX_LOS Assert Time t_loss_o 100 μs Note 7
Software TX_DISABLE Assert Time t_o _soft 100 ms Note 8
Software TX_DISABLE Negate Time t_on_soft 100 ms Note 9
Software Tx_FAULT Assert Time t_fault_soft 100 ms Note 10
Software Rx_LOS Assert Time t_loss_on_soft 100 ms Note 11
Software Rx_LOS De-Assert Time t_loss_o _soft 100 ms Note 12
Analog parameter data ready t_data 1000 ms Note 13
Serial bus hardware ready t_serial 300 ms Note 14
Write Cycle Time t_write 10 ms Note 15
Serial ID Clock Rate f_serial_clock 400 kHz
Notes:
1. Time from rising edge of TX_DISABLE to when the optical output falls below 10% of nominal.
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.
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.
8. Time from two-wire interface assertion of TX_DISABLE (A2h, byte 110, bit 6) to when the optical output falls below 10% of nominal. Measured
from falling clock edge after stop bit of write transaction.
9. Time from two-wire interface de-assertion of TX_DISABLE (A2h, byte 110, bit 6) to when the modulated optical output rises above 90% of
nominal.
10. Time from fault to two-wire interface TX_FAULT (A2h, byte 110, bit 2) asserted.
11. Time for two-wire interface assertion of Rx_LOS (A2h, byte 110, bit 1) from loss of optical signal.
12. Time for two-wire interface de-assertion of Rx_LOS (A2h, byte 110, bit 1) from presence of valid optical signal.
13. From power on to data ready bit asserted (A2h, byte 110, bit 0). Data ready indicates analog monitoring circuitry is functional.
14. Time from power on until module is ready for data transmission over the serial bus (reads or writes over A0h and A2h).
15. Time from stop bit to completion of a 1-8 byte write command.
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AFCT-57R5ATPZ

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Buy AFCT-57R5ATPZ
Manufacturer:
Broadcom / Avago
Description:
TXRX OPT SFP LC 4/2/1GBD LC CONN
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