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HCPL-8100 Datasheet, PDF (5/11 Pages) Agilent(Hewlett-Packard) – High Current Line Driver
Electrical Specifications
Unless otherwise noted, for sinusoidal waveform input and reference resistor Rref = 24 kΩ, all typical values are
at TA = 25°C and VCC = 5 V; all Minimum/Maximum specifications are at Recommended Operating Conditions.
Parameter
VCC Supply Current
Symbol Min. Typ.
ICC
1.2
20
VCC Under Voltage
Detection
Junction Over-
Temperature Threshold
Load Detection
Threshold
Status Logic High
Output
Status Logic Low
Output
Power Supply
Rejection Ratio
DC Bias Voltage
VUVD
VOH
VOL
PSRR
VBias
3.8 4.0
150
0.5
VCC−1
0
72
2.27
Max. Unit
2
mA
45 mA
4.3 V
Test Condition
VTx−en = 0 V, VTx−in = 0 VPP,
Tx-out no load
VTx−en = 5 V, VTx−in = 0 VPP,
Tx-out no load
°C
APP
VTx−en = 5 V, VTx−in = 1.25 VPP,
f = 132 kHz, Gain = − 2, RL = 2.5 Ω
VCC
V
VCC = 3.5 V, IOH = − 4 mA
0.8 V
VCC = 5 V, IOL = 4 mA
dB 50 Hz ripple, Vripple = 200 mVPP,
VTx−en = 5 V, VTx−in = 0 VPP, Tx-out no load
V
VTx−en = 5 V, Tx-out no load
Fig. Note
1
2, 3
1
2
12, 13 3
Output Impedance
Gain Bandwidth
Product
Transmit Enable
Threshold Voltage
Tx Enable Time
Tx Disable Time
2nd Harmonic
Distortion
3rd Harmonic
Distortion
Output Current
ZO
12
kΩ
VTx−en = 0 V, VTx−in = 0 VPP,
open loop, f = 132 kHz
0.5
Ω
VTx−en = 5 V, VTx−in = 0 VPP, f = 132 kHz
GBW
3.5
MHz VTx−en = 5 V, VTx−in = 1 VPP,
RL = 50 Ω
Vth, Tx
0.8
2.4 V
VTx−in = 1 VPP, f = 132 kHz,
Tx-out no load
tTx-en
0.9
µs
VTx−en = 5 V, VTx−in = 1.75 VPP,
f = 132 kHz, Tx-out no load
0.2
µs
VTx−en = 0 V, VTx−in = 1.75 VPP,
f = 132 kHz, Tx-out no load
HD2
−65 −60 dB
VTx−en = 5 V, VTx−out = 3.5 VPP, f = 132 kHz,
Gain = −2, Rref = 24 k Ω, RL= 50 Ω
HD3
−75 −65 dB
IO
1
APP VTx−en = 5 V, f=132 kHz
4, 14
11, 15
15
5-10, 16
4
Thermal Resistance
θJA
(HCPL-8100)
Thermal Resistance
θJA
(HCPL-0810)
100
°C/W 1 oz. trace, 2-layer PCB, still air, TA = 25°C
60
°C/W 1 oz. trace, 4-layer PCB, still air, TA = 25°C
138
°C/W 1 oz. trace, 2-layer PCB, still air, TA = 25°C
70
°C/W 1 oz. trace, 4-layer PCB, still air, TA = 25°C
Notes:
1. Threshold of falling VCC with hysteresis of 0.2 V (typ.).
2. Threshold of rising junction temperature with hysteresis of 20°C (typ.).
3. See Application Information section for more information on the load detection feature.
4. See Figure 3 for the plot of supply current versus Tx output current.
5