HCNR200#500 Avago Technologies US Inc., HCNR200#500 Datasheet - Page 9
HCNR200#500
Manufacturer Part Number
HCNR200#500
Description
OPTOCOUPLER ANALOG 8-SMD
Manufacturer
Avago Technologies US Inc.
Datasheet
1.HCNR201-500E.pdf
(19 pages)
Specifications of HCNR200#500
Output Type
Linear Photovoltaic
Input Type
DC
Package / Case
8-SMD Gull Wing
Number Of Channels
1
Voltage - Isolation
5000Vrms
Current Transfer Ratio (min)
0.25% @ 10mA
Current Transfer Ratio (max)
0.75% @ 10mA
Current - Dc Forward (if)
25mA
Mounting Type
Surface Mount, Gull Wing
Current Transfer Ratio
0.25 % to 0.75 %
Forward Current
1 mA to 20 mA
Isolation Voltage
5000 Vrms
Minimum Forward Diode Voltage
1.2 V
Output Device
Photodiode
Configuration
1 Channel
Maximum Forward Diode Voltage
1.95 V
Maximum Reverse Diode Voltage
2.5 V
Maximum Input Diode Current
25 mA
Maximum Power Dissipation
60 mW
Maximum Operating Temperature
+ 100 C
Minimum Operating Temperature
- 55 C
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Voltage - Output
-
Current - Output / Channel
-
Vce Saturation (max)
-
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Contains lead / RoHS non-compliant
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AC Electrical Specifications
T
LED Bandwidth
Application Circuit Bandwidth:
High Speed
High Precision
Application Circuit: IMRR
High Speed
Package Characteristics
T
Input‑Output
Momentary‑Withstand
Voltage*
Resistance
(Input‑Output)
Capacitance
(Input‑Output)
*The Input‑Output Momentary Withstand Voltage is a dielectric voltage rating that should not be interpreted as an input‑output continuous
voltage rating. For the continuous voltage rating refer to the VDE 0884 Insulation Characteristics Table (if applicable), your equipment level safety
specification, or Application Note 1074, “Optocoupler Input‑Output Endurance Voltage. ”
Notes:
1. K
2. BEST FIT DC NONLINEARITY (NL
3. ENDS FIT DC NONLINEARITY (NL
4. Device considered a two‑terminal device: Pins 1, 2, 3, and 4 shorted together and pins 5, 6, 7, and 8 shorted together.
5. In accordance with UL 1577, each optocoupler is proof tested by applying an insulation test voltage of ≥6000 V rms for ≥1 second (leakage
6. Specific performance will depend on circuit topology and components.
7. IMRR is defined as the ratio of the signal gain (with signal applied to V
9
A
A
= 25°C unless otherwise specified.
= 25°C unless otherwise specified.
Parameter
Parameter
mately equal to I
a graph of I
the best fit line, expressed as a percentage of the full scale output.
the 50 µA data point on the graph of I
detection current limit, I
IEC/EN/DIN EN 60747‑5‑2 Insulation Characteris‑tics Table (for Option #050 only).
common and the signal applied between the input and output commons) at 60 Hz, expressed in dB.
3
is calculated from the slope of the best fit line of I
PD2
vs. I
PD2
PD1
/I
with eleven equally distributed data points from 5 nA to 50 µA. I
PD1
at I
I‑O
of 5 µA max.). This test is performed before the 100% production test for partial discharge (method b) shown in the
F
= 10 mA.
BF
EF
) is the maximum deviation expressed as a percentage of the full scale output of a “best fit” straight line from
) is the maximum deviation expressed as a percentage of full scale output of a straight line from the 5 nA to
Symbol
V
R
C
PD2
ISO
I‑O
I‑O
vs. I
PD1
Symbol
f ‑3dB
.
Device
PD2
vs. I
Device
PD1
5000
with eleven equally distributed data points from 5 nA to 50 µA. This is approxi‑
Min.
10
10
12
11
IN
Min.
of Figure 16) to the isolation mode gain (with V
Typ.
10
0.4
13
Typ.
1.5
10
95
9
Max.
0.6
PD2
error to best fit line is the deviation below and above
Max.
V rms
Units
pF
Ω
Units
MHz
MHz
kHz
dB
Test
RH ≤50%,
t = 1 min.
V
T
V
f = 1 MHz
A
O
IO
= 100°C,
= 500 VDC
= 500 VDC
Conditions
Test
I
freq = 60 Hz
F
Conditions
= 10 mA
IN
connected to input
Fig.
Fig.
16
17
16
Note
Note
6, 7
4, 5
6
6
4
4
4
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