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HCPL-8100 Datasheet, PDF (5/10 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
VCC Under Voltage
Detection
Junction Over-Tem-
perature Threshold
Load Detection
Threshold
Status Logic High
Output
Status Logic Low
Output
Power Supply
Rejection Ratio
DC Bias Voltage
Symbol Min. Typ.
ICC
1.2
20
VUVD
3.8
4.0
Max. Unit Test Condition
2
mA VTx-en = 0 V, VTx-in = 0 VPP,
Tx-out no load
45
mA VTx-en = 5 V, VTx-in = 0 VPP,
Tx-out no load
4.3 V
150
°C
Fig. Note
1
2, 3
1
2
0.5
APP VTx-en = 5 V, VTx-in = 1.25 VPP,
f = 132 kHz, Gain = - 2, RL = 2.5 W
VOH
VCC-1
VCC V
VCC = 3.5 V, IOH = - 4 mA
12, 13 3
VOL
0
0.8 V
VCC = 5 V, IOL = 4 mA
PSRR
VBias
72
dB 50 Hz ripple, Vripple = 200 mVPP, VTx-en = 5
V, VTx-in = 0 VPP, Tx-out no load
2.27
V
VTx-en = 5 V, Tx-out no load
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
kW VTx-en = 0 V, VTx-in = 0 VPP,
open loop, f = 132 kHz
0.5
W
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 W
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 W, RL= 50 W
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 qJA
(HCPL-8100)
Thermal Resistance qJA
(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.