IL300-F-X006 Vishay, IL300-F-X006 Datasheet
IL300-F-X006
Specifications of IL300-F-X006
Available stocks
Related parts for IL300-F-X006
IL300-F-X006 Summary of contents
Page 1
... TAPE 7.62 mm AND Option 7 REEL > 0.7 mm 0.945 to 1.181 0.851 to 0.955 0.945 to 1.061 IL300-EF - IL300-E IL300-FG-X006 IL300-E-X006 (1) - IL300-E-X007T IL300-F-X007 ( 0.945 to 1.181 0.851 to 0.955 0.945 to 1.061 - IL300-E-X001 - - (1) - IL300-E-X017T IL300-F-X017T - - - www.vishay.com IL300 Option 6 10.16 mm Option 9 > 0.1 mm IL300-F IL300-F-X006 (1) IL300-F-X009T IL300-F-X001 IL300-F-X016 (1) (1) IL300-F-X019T 1 ...
Page 2
... The overall transfer gain is completely independent of the LED forward current. The IL300 transfer gain (K3) is expressed as the ratio of the output gain (K2) to the feedback gain (K1). This shows that the circuit gain becomes the product of the IL300 transfer gain times the ratio of the output to input resistors (R2/R1) ...
Page 3
... MHz NEP det MHz mA det mA det mA det mA det mA det optocoupleranswers@vishay.com IL300 Vishay Semiconductors VALUE UNIT 160 mW 2.13 mW/° 250 470 K/W 100 ° 0.65 mW/° 1500 K/W 100 °C 210 mW 2.8 mW/° 150 ° 100 °C > 5300 V RMS Ω 12 > 10 Ω 11 > ...
Page 4
... Bin categories: All IL300s are sorted into a K3 bin, indicated by an alpha character that is marked on the part. The bins range from "A" through "J". The IL300 is shipped in tubes of 50 each. Each tube contains only one category of K3. The category of the parts in the tube is marked on the tube label as well as on each individual part. ...
Page 5
... L ED Current (mA) F 1.010 Normalized to: 0 ° 1.005 ° °C 1.000 50 °C 75 °C 0.995 0.990 LED Current (mA) iil300_11 F Fig Normalized Transfer Gain vs. LED Current and Temperature mA, Mod = ± 2.0 Ma (peak kΩ kΩ Frequency (Hz) iil300_12 Fig Amplitude Response vs. Frequency www.vishay.com IL300 0° 100 ...
Page 6
... The output photodiode current can be directly or amplified to satisfy the needs of succeeding circuits. ISOLATED FEEDBACK AMPLIFIER The IL300 was designed to be the central element of DC coupled isolation amplifiers. Designing the IL300 into an amplifier that provides a feedback control signal for a line powered switch mode power is quite simple, as the following example will illustrate ...
Page 7
... Document Number: 83622 For technical questions, contact: Rev. 1.6, 10-Nov-10 Linear Optocoupler, High Gain Stability, Wide Bandwidth The value of R5 depends upon the IL300 Transfer Gain (K3 targeted unit gain device, however to minimize the part to part Transfer Gain variation, Infineon offers K3 R1 Voltage graded into ± ...
Page 8
... The AC characteristics are also quite impressive offering bandwidth of 100 kHz, with a - 45° phase shift at 80 kHz as shown in figure 16. optocoupleranswers@vishay.com R5 RESISTOR kΩ TYP. 0.59 51.1 0.66 45.3 ...
Page 9
... R3 R5 ( (R5 + R6) OUT = ( OUT Inverting = V R3 (R1 + R2) IN optocoupleranswers@vishay.com Vishay Semiconductors ). In these designs, R3 can be determined by the ref1 V V ref1 ref1 K1I P1 Fq 17098 + V ref2 – Vcc out – OFFSET ref1 V = ref2 (R5 + R6) K3 ref1 V = ref2 (R5 + R6) K3 ref1 V = ref2 ref1 V = ref2 R3 IL300 www.vishay.com 9 ...
Page 10
... PACKAGE MARKING (this is an example of the IL300-E-X001) www.vishay.com For technical questions, contact: 10 Linear Optocoupler, High Gain Stability, Wide Bandwidth permit operation close to ground. For best results, place a buffer transistor between the LED and output of the operational amplifier when a CMOS ...
Page 11
... Vishay disclaims any and all liability arising out of the use or application of any product described herein or of any information provided herein to the maximum extent permitted by law. The product specifications do not expand or otherwise modify Vishay’ ...