IL300-F-X006 Vishay, IL300-F-X006 Datasheet - Page 8
IL300-F-X006
Manufacturer Part Number
IL300-F-X006
Description
Optocoupler
Manufacturer
Vishay
Datasheet
1.IL300-F-X006.pdf
(11 pages)
Specifications of IL300-F-X006
Leaded Process Compatible
Yes
Current Transfer Ratio
0.5 % to 1.1 %
Forward Current
10 mA
Isolation Voltage
5300 Vrms
Maximum Fall Time
1.75 us
Maximum Rise Time
1.75 us
Output Device
PIN Photodiode
Output Type
DC
Configuration
1 Channel
Input Type
AC/DC
Maximum Forward Diode Voltage
1.5 V
Maximum Reverse Diode Voltage
5 V
Maximum Input Diode Current
60 mA
Maximum Power Dissipation
210 mW
Maximum Operating Temperature
+ 100 C
Minimum Operating Temperature
- 55 C
Package / Case
DIP-8
Number Of Elements
1
Reverse Breakdown Voltage
5V
Forward Voltage
1.5V
Collector-emitter Voltage
Not RequiredV
Package Type
PDIP
Collector Current (dc) (max)
Not RequiredA
Power Dissipation
210mW
Collector-emitter Saturation Voltage
Not RequiredV
Pin Count
8
Mounting
Through Hole
Operating Temp Range
-55C to 100C
Operating Temperature Classification
Industrial
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
IL300-F-X006
Manufacturer:
VISHAY/威世
Quantity:
20 000
IL300
Vishay Semiconductors
Table 1. Gives the value of R5 given the production K3 bin.
The last step in the design is selecting the LED current
limiting resistor (R4). The output of the operational amplifier
is targeted to be 50 % of the V
quiescent current of 12 mA the typical LED (V
Given this and the operational output voltage, R4 can be
calculated.
The circuit was constructed with an LM201 differential
operational amplifier using the resistors selected. The
amplifier was compensated with a 100 pF capacitor
connected between pins 1 and 8.
The DC transfer characteristics are shown in figure 17. The
amplifier was designed to have a gain of 0.6 and was
measured to be 0.6036. Greater accuracy can be achieved
by adding a balancing circuit, and potentiometer in the input
divider, or at R5. The circuit shows exceptionally good gain
linearity with an RMS error of only 0.0133 % over the input
voltage range of 4 V to 6 V in a servo mode; see figure 15.
www.vishay.com
8
R4 =
TABLE 1 - R5 SELECTION
V
opamp
BIN
I
A
B
C
D
G
H
E
F
J
Fq
I
- V F
=
2.5 V - 1.3 V
12 mA
CC
For technical questions, contact:
, or 2.5 V. With an LED
0.560
0.623
0.693
0.769
0.855
0.950
1.056
1.175
1.304
1.449
MIN.
= 100 Ω
Linear Optocoupler, High Gain
Stability, Wide Bandwidth
F
) is 1.3 V.
17096
0.623
0.693
0.769
0.855
0.950
1.056
1.175
1.304
1.449
1.610
MAX.
K3
optocoupleranswers@vishay.com
The AC characteristics are also quite impressive offering a
- 3 dB bandwidth of 100 kHz, with a - 45° phase shift at
80 kHz as shown in figure 16.
iil300_19
iil300_20
- 0.005
- 0.010
- 0.015
0.025
0.020
0.015
0.010
0.005
0.000
3.75
3.50
3.25
3.00
2.75
2.50
2.25
Fig. 15 - Linearity Error vs. Input Voltage
4.0
4.0
V
LM201
out
0.59
0.66
0.73
0.81
0.93
1.11
1.24
1.37
1.53
TYP.
Fig. 14 - Transfer Gain
= 14.4 mV + 0.6036 x V
LM 201 T
1
V
4.5
4.5
in
- Input Voltage (V)
a
= 25 °C
5.0
5.0
Document Number: 83622
in
5.5
5.5
R5 RESISTOR
Rev. 1.6, 10-Nov-10
1 %
51.1
45.3
41.2
37.4
32.4
19.4
30
27
24
22
6.0
6.0
kΩ
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