AFBR-703SNZ Avago Technologies US Inc., AFBR-703SNZ Datasheet - Page 14
AFBR-703SNZ
Manufacturer Part Number
AFBR-703SNZ
Description
10Gb ETHERNET TRANSCEIVER, 850NM
Manufacturer
Avago Technologies US Inc.
Datasheet
1.AFBR-703SNZ.pdf
(19 pages)
Specifications of AFBR-703SNZ
Supply Voltage
3.3V
Wavelength Typ
850nm
Applications
Gigabit Ethernet
Product
Transceiver
Data Rate
10.31 Gbd
Wavelength
860 nm
Maximum Rise Time
28 ps
Maximum Fall Time
28 ps
Maximum Output Current
20 mA
Operating Supply Voltage
- 0.3 V to + 3.8 V
Maximum Operating Temperature
+ 100 C
Minimum Operating Temperature
- 40 C
Maximum Forward Current
180 mA
Maximum Power Dissipation
600 mW
Operating Voltage
3.465 V
Leaded Process Compatible
Yes
Peak Reflow Compatible (260 C)
Yes
Rohs Compliant
Yes
Lead Free Status / Rohs Status
Details
Table 10. Control Functions: Low Speed Signals Timing Characteristics
The following characteristics are defined over the Recommended Operating Conditions unless otherwise noted.
Notes:
1. Time from rising edge of TX_DISABLE to when the optical output falls below 10% of nominal. A 10 ms interval between assertions of TX_
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
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 11. Control Functions: Two-Wire Interface Timing Characteristics
The following characteristics are defined over the Recommended Operating Conditions unless otherwise noted.
Notes:
1. 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
2. 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
3. Time from fault to two-wire interface TX_FAULT (A2h, byte 110, bit 2) asserted.
4. Time for two-wire interface assertion of Rx_LOS (A2h, byte 110, bit 1) from loss of optical signal.
5. Time for two-wire interface de-assertion of Rx_LOS (A2h, byte 110, bit 1) from presence of valid optical signal.
6. From power on to data ready bit asserted (A2h, byte 110, bit 0). Data ready indicates analog monitoring circuitry is functional.
7. Time from power on until module is ready for data transmission over the two-wire interface (reads or writes over A0h and A2h).
8. Time from stop bit to completion of a 1-8 byte write command. Measured from the stop bit, for a one t om four byte write the maximum cycle
9. Between STOP and START. See SFF 8431 Section 4.3
14
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
Parameter
TX_DISABLE Assert Time
TX_DISABLE Negate Time
TX_FAULT Assert Time
Rx_LOS Assert Time
Rx_LOS Deassert Time
Analog parameter data ready
Two-Wire Interface Ready
Write Cycle Time Parameter
Two-Wire Interface Clock Rate
Time bus free before new
transmission can start
DISABLE is required.
interface is available.
from falling clock edge after stop bit of write transaction.
nominal.
time is 40ms and for a five to eight byte write the maximum cycle time is 80ms.
Symbol
t_off
t_on
t_init
t_fault
t_reset
t_los_on
t_los_off
Symbol
t_off_twi
t_on_twi
t_fault_twi
t_loss_on_twi
t_loss_off_twi
t_data
t_serial
t_write
f_serial_clock
t_BUF
10
Minimum
Minimum
20
100
100
Maximum
10
2
300
100
Maximum
100
100
100
100
100
1000
300
80
400
Unit
μs
ms
ms
μs
μs
μs
μs
Unit
ms
ms
ms
ms
ms
ms
ms
ms
kHz
Ps
Notes
Note 1 , Fig. 6
Note 2 , Fig. 6
Note 3 , Fig. 6
Note 4 , Fig. 6
Note 5 , Fig. 6
Note 6 , Fig. 6
Note 7 , Fig. 6
Notes
Note 1
Note 2
Note 3
Note 4
Note 5
Note 6
Note 7
Note 8
Note 9
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