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參數(shù)資料
| 型號: | IL4118 |
| 廠商: | SIEMENS A G |
| 元件分類: | 光電耦合器 |
| 英文描述: | SWITCH ROTARY DIP RA FLAT 16POS |
| 中文描述: | 1 CHANNEL TRIAC OUTPUT WITH ZERO CRSVR OPTOCOUPLER |
| 封裝: | DIP-6 |
| 文件頁數(shù): | 3/3頁 |
| 文件大?。?/td> | 84K |
| 代理商: | IL4118 |
5–3
IL4116/4117/4118
Figure 3. Peak LED current vs. duty factor, Tau
Figure 4. Maximum LED power dissipation
Figure 5. On-state terminal voltage vs. terminal current
Figure 6. Maximum output power dissipation
Power Factor Considerations
A snubber isn’t needed to eliminate false operation of the
TRIAC driver because of the IL411’s high static and commutat-
ing dv/dt with loads between 1 and 0.8 power factors. When
inductive loads with power factors less than 0.8 are being
driven, include a RC snubber or a single capacitor directly
across the device to damp the peak commutating dv/dt spike.
Normally a commutating dv/dt causes a turning-off device to
stay on due to the stored energy remaining in the turning-off
device.
But in the case of a zero voltage crossing optotriac, the com-
mutating dv/dt spikes can inhibit one half of the TRIAC from
turning on. If the spike potential exceeds the inhibit voltage of
the zero cross detection circuit, half of the TRIAC will be held-
off and not turn-on. This hold-off condition can be eliminated by
using a snubber or capacitor placed directly across the optot-
riac as shown in Figure 7. Note that the value of the capacitor
increases as a function of the load current.
The hold-off condition also can be eliminated by providing a
higher level of LED drive current. The higher LED drive pro-
vides a larger photocurrent which causer. the phototransistor to
turn-on before the commutating spike has activated the zero
cross network. Figure 8 shows the relationship of the LED drive
for power factors of less than 1.0. The curve shows that if a
device requires 1.5 mA for a resistive load, then 1.8 times (2.7
mA) that amount would be required to control an inductive load
whose power factor is less than 0.3.
Figure 7. Shunt capacitance versus load current
versus power factor
Figure 8. Normalized LED trigger current
相關(guān)PDF資料 |
PDF描述 |
|---|---|
| IL4208 | 800 V TRIAC DRIVER OPTOCOUPLER |
| IL4216 | TRIAC DRIVER OPTOCOUPLER |
| IL4217 | TRIAC DRIVER OPTOCOUPLER |
| IL4218 | Dip Switch |
| IL422-3V | Isolated 3Volt RS422/RS485 Interface |
相關(guān)代理商/技術(shù)參數(shù) |
參數(shù)描述 |
|---|---|
| IL4118 | 制造商:Vishay Semiconductors 功能描述:Optocoupler |
| IL4118X001 | 制造商:Siemens 功能描述: |
| IL4118-X001 | 功能描述:三極與 SCR 輸出光電耦合器 Phototriac Output, Zero Crossing RoHS:否 制造商:Vishay Semiconductors 輸出設(shè)備:PhotoTriac 每芯片的通道數(shù)量: 絕緣電壓:3750 Vrms 正向電流:10 mA 正向電壓:1.2 V 最大觸發(fā)電流:10 mA 關(guān)斷狀態(tài)下輸出電壓-VDRM:600 V 最大連續(xù)輸出電流: 零交叉電路: 封裝:Reel |
| IL4118-X006 | 功能描述:三極與 SCR 輸出光電耦合器 Phototriac Output, Zero Crossing RoHS:否 制造商:Vishay Semiconductors 輸出設(shè)備:PhotoTriac 每芯片的通道數(shù)量: 絕緣電壓:3750 Vrms 正向電流:10 mA 正向電壓:1.2 V 最大觸發(fā)電流:10 mA 關(guān)斷狀態(tài)下輸出電壓-VDRM:600 V 最大連續(xù)輸出電流: 零交叉電路: 封裝:Reel |
| IL4118-X007 | 功能描述:三極與 SCR 輸出光電耦合器 Phototriac Output, Zero Crossing RoHS:否 制造商:Vishay Semiconductors 輸出設(shè)備:PhotoTriac 每芯片的通道數(shù)量: 絕緣電壓:3750 Vrms 正向電流:10 mA 正向電壓:1.2 V 最大觸發(fā)電流:10 mA 關(guān)斷狀態(tài)下輸出電壓-VDRM:600 V 最大連續(xù)輸出電流: 零交叉電路: 封裝:Reel |
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