SLLSEO4A June 2015 – July 2015 ONET1130EP
PRODUCTION DATA.
MIN | MAX | UNIT | ||
---|---|---|---|---|
Supply voltage | at VCC_TX, VCC_RX, VDD | –0.5 | 3 | V |
Voltage | at 3.3-V tolerant pinsSDA, SCK, RX_LOS, RX_DIS, TX_FLT, TX_DIS | –0.5 | 3.6 | V |
at all other pins MONB, TXIN+, TXIN–, PD, MONP, BIAS, TXOUT–, TXOUT+, AMP, RXIN+, RXIN–, COMP, RX_LF, RXOUT–, RXOUT+, | –0.5 | 3 | V | |
Maximum current at transmitter input pins | TXIN+, TXIN– | 10 | mA | |
Maximum current at transmitter output pins | TXOUT+, TXOUT– | 125 | mA | |
Maximum current at receiver input pins | RXIN+, RXIN– | 10 | mA | |
Maximum current at receiver output pins | RXOUT+, RXOUT– | 30 | mA | |
Maximum junction temperature, TJ | 125 | °C | ||
Storage temperature, Tstg | –65 | 150 | °C |
VALUE | UNIT | |||
---|---|---|---|---|
V(ESD) | Electrostatic discharge | Human-body model (HBM), per ANSI/ESDA/JEDEC JS-001(1) | ±2000 | V |
Charged-device model (CDM), per JEDEC specification JESD22-C101(2) | ±750 |
MIN | TYP | MAX | UNIT | |||
---|---|---|---|---|---|---|
VCC | Supply Voltage | 2.37 | 2.5 | 2.63 | V | |
VIH | Digital input high voltage | TX_DIS, RX_DIS, SCK, SDA, 3.3-V tolerant IOs | 2 | V | ||
VIL | Digital input low voltage | 0.8 | V | |||
Photodiode current range | Control bit TXPDRNG = 1x, step size = 3 µA | 3080 | µA | |||
Control bit TXPDRNG = 01, step size = 1.5 µA | 1540 | |||||
Control bit TXPDRNG = 00, step size = 0.75 µA | 770 | |||||
Serial Data rate | 11.7 | Gbps | ||||
VAMP | Amplitude control input voltage range | 0 | 2 | V | ||
tR-IN | Input rise time | 20%–80% | 30 | 45 | ps | |
tF-IN | Input fall time | 20%–80% | 30 | 45 | ps | |
TC | Temperature at thermal pad | –40 | 100 | °C |
THERMAL METRIC(1) | RSM (VQFN) | UNIT | |
---|---|---|---|
32 PINS | |||
RθJA | Junction-to-ambient thermal resistance | 37.2 | °C/W |
RθJCtop | Junction-to-case (top) thermal resistance | 30.1 | °C/W |
RθJB | Junction-to-board thermal resistance | 7.8 | °C/W |
ψJT | Junction-to-top characterization parameter | 0.4 | °C/W |
ψJB | Junction-to-board characterization parameter | 7.6 | °C/W |
RθJCbot | Junction-to-case (bottom) thermal resistance | 2.4 | °C/W |
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |
---|---|---|---|---|---|---|
VCC | Supply voltage | 2.37 | 2.5 | 2.63 | V | |
IVCC | Supply current in single-ended TX mode | TXMODE = 1, TX VOUT = 2 VPP single-ended, I(BIAS) = 0 mA; 600 mVPP differential RX output | 161 | 185 | mA | |
Power dissipation in single-ended TX mode | 403 | 487 | mW | |||
Supply current in differential TX mode | TXMODE = 0, TX VOUT = 1.8 VPP single-ended, I(BIAS) = 0 mA; 600 mVPP differential RX output | 206 | 242 | mA | ||
Power dissipation in differential TX mode | 515 | 636 | mW | |||
R(TXIN) | Transmitter data input resistance | Differential between TXIN+ / TXIN– | 100 | Ω | ||
Transmitter data input termination mismatch | 5% | |||||
R(RXIN) | Receiver data input resistance | Differential between RXIN+ / RXIN– | 100 | Ω | ||
R(OUT) | Transmitter output resistance | Single-ended at TXOUT+ or TXOUT– | 60 | Ω | ||
R(RXOUT) | Receiver data output resistance | Differential between RXOUT+ or RXOUT– | 90 | Ω | ||
Receiver data output termination mismatch | 5% | |||||
Digital input current | TX_DIS, RX_DIS pull up to VCC | –20 | 20 | µA | ||
VOH | Digital output high voltage | TX_FLT, RX_LOS, pull-up to VCC, ISOURCE = 37.5 μA |
2.1 | V | ||
VOL | Digital output low voltage | TX_FLT, RX_LOS, pull-up to VCC, ISINK = 350 μA |
0.4 | V | ||
I(BIAS-MIN) | Minimum bias current | See (1) | 5 | mA | ||
I(BIAS-MAX) | Maximum bias current | Source. BIASPOL = 0, DAC set to maximum, open and closed loop | 145 | 150 | mA | |
Sink. BIASPOL = 1, DAC set to maximum, open and closed loop | 95 | 100 | ||||
I(BIAS-DIS) | Bias current during disable | 100 | µA | |||
Average power stability | APC loop enabled | ±0.5 | dB | |||
Bias pin compliance voltage | Source. TXBIASPOL = 0 | VCC-0.45 | V | |||
Sink. TXBIASPOL = 1 | 0.45 | |||||
Temperature sensor accuracy | With 1-point external mid-scale calibration | ±3 | °C | |||
V(PD) | Photodiode reverse bias voltage | APC active, I(PD) = 1500 μA | 1.3 | 2.3 | V | |
Photodiode fault current level | Percent of target I(PD)(2) | 150% | ||||
Photodiode current monitor ratio | I(MONP) / I(PD) with control bit PDRNG = 1X | 10% | 12.5% | 15% | ||
I(MONP) / I(PD) with control bit PDRNG = 01 | 20% | 25% | 30% | |||
I(MONP) / I(PD) with control bit TXPDRNG = 00 | 40% | 50% | 60% | |||
Monitor diode DMI accuracy | With external mid-scale calibration | ±10% | ||||
Bias current monitor ratio | I(MONB) / I(BIAS) (nominal 1/100 = 1%), V(MONB) < 1.5V | 0.9% | 1% | 1.1% | ||
Bias current DMI accuracy | I(BIAS) ≥ 20 mA | –15% | 15% | |||
Power supply monitor accuracy | With external mid-scale calibration | –2% | 2% | |||
V(CC-RST) | VCC reset threshold voltage | VCC voltage level which triggers power-on reset | 1.8 | 2.1 | V | |
V(CC-RSTHYS) | VCC reset threshold voltage hysteresis | 100 | mV | |||
V(MONB-FLT) | Fault voltage at MONB | TXFLTEN = 1, TXDMONB = 0, Fault occurs if voltage at MONB exceeds this value | 1.15 | 1.2 | 1.25 | V |
V(MONP-FLT) | Fault voltage at MONP | TXFLTEN = 1, TXMONPFLT = 1, TXDMONP = 0, Fault occurs if voltage at MONP exceeds this value | 1.15 | 1.2 | 1.25 | V |
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |
---|---|---|---|---|---|---|
TX INPUT SPECIFICATIONS | ||||||
Data rate | CPRI, Ethernet, SONET, Fibre Channel | 1 | 11.7 | Gbps | ||
Differential input return loss | 0.05 GHz < f ≤ 0.1 GHz | 20 | dB | |||
0.1 GHz < f ≤ 5.5 GHz | 12 | 15 | ||||
5.5 GHz < f < 12 GHz | 8 | |||||
Differential to common mode conversion | 0.1 GHz < f < 12 GHz | 10 | 15 | dB | ||
Common mode input return loss | 0.1 GHz < f < 12 GHz | 3 | dB | |||
Input AC common mode voltage tolerance | 15 | mV | ||||
VIN | Differential input voltage swing | 100 | 1000 | mVPP | ||
EQ(boost) | EQ high freq boost | Maximum setting; 7 GHz | 6 | 9 | dB | |
TX OUTPUT SPECIFICATIONS | ||||||
Differential output return loss | 0.01 GHz < f < 12 GHz | 12 | dB | |||
VO(MIN) | Minimum output amplitude | AC Coupled Outputs, 50-Ω single-ended load | 0.5 | VPP | ||
TX OUTPUT SPECIFICATIONS in SINGLE-ENDED MODE of OPERATION (TXMODE = 1) | ||||||
VO(MAX) | Maximum output amplitude | AC Coupled Outputs, 50-Ω load, single-ended | 2 | VPP | ||
Output amplitude stability | AC Coupled Outputs, 50-Ω load, single-ended | 230 | mVPP | |||
High Cross Point Control Range | 50-Ω load, single-ended | 70% | 75% | |||
Low Cross Point Control Range | 50-Ω load, single-ended | 35% | 40% | |||
Cross Point Stability | 50-Ω load, single-ended | -5 | 5 | pp | ||
Output de-emphasis | TXDEADJ[0..3] = 1111, TXPKSEL = 0 | 5 | dB | |||
TXDEADJ[0..3] = 1111, TXPKSEL = 1 | 6 | |||||
TX OUTPUT SPECIFICATIONS in DIFFERENTIAL MODE of OPERATION (TXMODE = 0) | ||||||
VO(MAX) | Maximum output amplitude | AC Coupled Outputs, 100-Ω differential load | 3.6 | VPP | ||
Output amplitude stability | AC Coupled Outputs, 100-Ω differential load | 230 | mVPP | |||
High Cross Point Control Range | 100-Ω differential load | 65% | 75% | |||
Low Cross Point Control Range | 100-Ω differential load | 35% | 40% | |||
Cross Point Stability | 100-Ω differential load | –5 | 5 | pp | ||
Output de-emphasis | TXDEADJ[0..3] = 1111, TXPKSEL = 0 | 5 | dB | |||
TXDEADJ[0..3] = 1111, TXPKSEL = 1 | 6 |
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |
---|---|---|---|---|---|---|
RX INPUT SPECIFICATIONS | ||||||
Data rate | CPRI, Ethernet, SONET, Fibre Channel | 1 | 11.7 | Gbps | ||
Differential input return loss | 0.01 GHz < f ≤ 5 GHz | 15 | dB | |||
5 GHz < f < 12 GHz | 8 | |||||
Differential to common mode conversion | 0.1 GHz < f < 12 GHz | 15 | dB | |||
VI(RX,MIN) | Data input sensitivity | TXOUT_DIS = 1, PRBS31 pattern at 11.7Gbps, BER < 10-12 |
6 | 9 | mVPP | |
VI(RX,MAX) | Data input overload | 800 | mVPP | |||
J(T_RX) | Sinusoidal jitter tolerance | 9.95 Gbps, BER = 10-12, f = 400kHz | 1.5 | UIPP | ||
9.95 Gbps, BER = 10-12, f = 4MHz | 0.4 | |||||
9.95 Gbps, BER = 10-12, f = 80MHz | 0.4 | |||||
RX OUTPUT SPECIFICATIONS | ||||||
Differential output return loss | 0.05 GHz < f ≤ 0.1 GHz | 20 | dB | |||
0.1 GHz < f < 5.5 GHz | 8 | 15 | ||||
5.5 GHz < f < 12 GHz | 8 | |||||
Common mode input return loss | 0.1 GHz < f < 12 GHz | 3 | dB | |||
CMOV(RX) | Output AC common mode voltage | PRBS31 pattern, RXAMP[0..3] = 0001 | 7 | mVrms | ||
f3dB-L | Low frequency –3dB bandwidth | 20 | 50 | kHz | ||
D(J_RX) | Deterministic output jitter | 0.1 | UIPP | |||
T(J_RX) | Total output jitter | 0.2 | UIPP | |||
VOD | Differential data output voltage | VIN > 25 mVPP, RX_DIS = 0, RXAMP[0..3] = 0000 | 300 | mVPP | ||
VIN > 25 mVPP, RX_DIS = 0, RXAMP[0..3] = 1111 | 900 | mVPP | ||||
RX_DIS = 1 | 5 | mVrms | ||||
Output De-emphasis | RXDADJ[0..1] = 11 | 1 | dB | |||
RX LOS SPECIFICATIONS | ||||||
VTH | LOW LOS assert threshold range min | PRBS7 pattern at 11.3Gbps, RXLOSRNG = 1 | 10 | mVPP | ||
LOW LOS assert threshold range max | PRBS7 pattern at 11.3Gbps, RXLOSRNG = 1 | 50 | ||||
VTH | HIGH LOS assert threshold range min | PRBS7 pattern at 11.3Gbps, RXLOSRNG = 0 | 40 | mVPP | ||
HIGH LOS assert threshold range max | PRBS7 pattern at 11.3Gbps, RXLOSRNG = 0 | 130 | ||||
LOS hysteresis (electrical) | 2 | 4 | 6 | dB | ||
LOS threshold variation | Versus temperature | 1.5 | dB | |||
Versus supply voltage | 1 | |||||
Versus data rate | 1.5 |
MIN | TYP | MAX | UNIT | |||
---|---|---|---|---|---|---|
t(APC) | APC time constant | CAPC 0.01 µF, IPD = 500 µA, PD coupling ratio CR = 150, PDRNG = 01 |
50 | µs | ||
t(INIT1) | Power-on to initialize | Power-on to registers ready to be loaded | 0.2 | 1 | ms | |
t(INIT2) | Initialize to transmit | Register load STOP command to part ready to transmit valid data | 2 | ms | ||
t(OFF) | Transmitter disable time | Rising edge of TX_DIS to I(BIAS) ≤ 0.1 × I(BIAS-NOMINAL) | 1 | 5 | µs | |
t(ON) | Disable negate time | Falling edge of TX_DIS to I(BIAS) ≥ 0.9 × I(BIAS-NOMINAL) | 1 | ms | ||
t(RESET) | TX_DIS pulse width | Time TX_DIS must held high to reset part | 100 | ns | ||
t(FAULT) | Fault assert time | Time from fault condition to FLT high | 50 | µs | ||
TX OUTPUT SPECIFICATIONS in SINGLE-ENDED MODE of OPERATION (TXMODE = 1) | ||||||
tR(OUTTX) | Output rise time | 20% - 80%, AC Coupled Outputs, 50-Ω load, single-ended | 30 | 42 | ps | |
tF(OUTTX) | Output fall time | 20% - 80%, AC Coupled Outputs, 50-Ω load, single-ended | 30 | 42 | ps | |
ISI(TX) | Intersymbol interference | TXEQ_DIS = 1, 11.3 Gbps, PRBS9 pattern, 150-mVpp, 600-mVpp, 1200-mVpp differential input voltage |
4 | 12 | ps | |
TXEQ_DIS = 0, 11.3 Gbps, PRBS9 pattern, 150-mVpp, 600-mVpp, 1200-mVpp differential input voltage, maximum equalization with 18-inch transmission line at the input. |
7 | |||||
R(J_TX) | Serial data output random jitter | 0.4 | 1 | psRMS | ||
Output de-emphasis width | TXPKSEL = 0 | 28 | ps | |||
TXPKSEL = 1 | 35 | |||||
TX OUTPUT SPECIFICATIONS in DIFFERENTIAL MODE of OPERATION (TXMODE = 0) | ||||||
tR(OUTTX) | Output rise time | 20%–80%, AC Coupled Outputs, 100-Ω differential load | 30 | 42 | ps | |
tF(OUTTX) | Output fall time | 20%–80%, AC Coupled Outputs, 100-Ω differential load | 30 | 42 | ps | |
ISI(TX) | Intersymbol interference | TXEQ_DIS = 1, 11.3 Gbps, PRBS9 pattern, 150-mVpp, 600-mVpp, 1200-mVpp differential input voltage |
4 | 10 | ps | |
TXEQ_DIS = 0, 11.3 Gbps, PRBS9 pattern, 150-mVpp, 600-mVpp, 1200-mVpp differential input voltage, maximum equalization with 18-inch transmission line at the input. |
7 | |||||
R(J_TX) | Serial data output random jitter | 0.4 | 1 | psRMS | ||
Output Peaking Width | TXPKSEL = 0 | 28 | ps | |||
TXPKSEL = 1 | 35 | |||||
RX OUTPUT SPECIFICATIONS | ||||||
tR(OUTRX) | Output rise time | 20%–80%, 100-Ω differential load, adjustable | 30 | 40 | ps | |
tF(OUTRX) | Output fall time | 20%–80%, 100-Ω differential load, adjustable | 30 | 40 | ps | |
Serial data output deterministic jitter | PRBS9 pattern 11.3 Gbps, VIN = 15 mVpp to 900 mVpp | 3 | 10 | ps | ||
RX LOS SPECIFICATIONS | ||||||
t(LOS_AST) | LOS assert time | 2.5 | 10 | 50 | μs | |
t(LOS, DEA) | LOS deassert time | 2.5 | 10 | 50 | μs |
Symbol | Description | Min | Max | Unit |
---|---|---|---|---|
fSCK | SCK clock frequency | 400 | kHz | |
tBUF | Bus free time between START and STOP conditions | 1.3 | µs | |
tHDSTA | Hold time after repeated START condition. After this period, the first clock pulse is generated | 0.6 | µs | |
tLOW | Low period of the SCK clock | 1.3 | µs | |
tHIGH | High period of the SCK clock | 0.6 | µs | |
tSUSTA | Setup time for a repeated START condition | 0.6 | µs | |
tHDDAT | Data HOLD time | 0 | µs | |
tSUDAT | Data setup time | 100 | ns | |
tR | Rise time of both SDA and SCK signals | 300 | ns | |
tF | Fall time of both SDA and SCK signals | 300 | ns | |
tSUSTO | Setup time for STOP condition | 0.6 | µs |
TXMODE = 0 |
TXMODE = 0 |
TXMODE = 1 |
TXMODE = 1 |
TXMODE = 0 |
TXMODE = 0 | Bias Current = 0 |
TXMODE = 0 | 15 ps/Div |
11.3 Gbps | TX Disabled |
RX LOSRNG = 1 |
RX LOSRNG = 1 |
TXMODE = 1 |
TXMODE = 1 |
TXMODE = 1 |
TXMODE = 1 |
TXPDRNG[0..1] = 00 |
TXMODE = 1 |
TXMODE = 1 | Bias Current = 0 |
TXMODE = 1 | 15 ps/Div |
RX LOSRNG = 0 |
RX LOSRNG = 0 |
VI = 20 mVPP | ||