...e short-circuited using a relay or transistor as shown in the following diagram. +24 V 0 V 470Ω VF = 1.2 VF = 0.6 COM Internal circuitry EV* 3 kΩ Flow current: 7 mA approx. Signal In...

https://www.fa.omron.com.cn/data_pdf/mnu/z103-e1-05_e5_j.pdf

... short-circuited using a relay or transistor as shown in the following diagram. +24 V 0 V 470 W VF = 1.2 VF = 0.6 COM Internal circuitry EV* 3 kW Flow current: 7 mA approx. Signal In...

https://www.fa.omron.com.cn/data_pdf/mnu/z103-e3-1_e5_j.pdf

...的正向电压下降多少，开关电源A、B的输出电压设定就高多少。此外，二极管会产生开关电源输出电流（ⅠOUT）二极管正向电压（VF）的功率损耗，因此为了让二极管的温度降到规定值以下，必须进行冷却。 负载的功...

https://www.fa.omron.com.cn/guide/wwsbqt/1723.html

...3VM-351D G3VM-351D(TR) G3VM-3 G3VM-3F G3VM-3F(TR) G3VM-351B G3VM-351E G3VM-351E(TR) G3VM-V G3VM-VF G3VM-VF(TR) G3VM-61B1 G3VM-61E1 G3VM-61E1(TR) G3VM-XN G3VM-XNF G3VM-XNF(TR) G3VM-61...

https://www.fa.omron.com.cn/upload/alternative/201904030252483231.pdf

...• Increase the output voltage setting of the Power Supplies by the drop in the forward voltage (VF) of diodes D1 and D2. Also, the diodes will cause a power loss equivalent to the Power Suppl...

https://www.omron-ap.co.in/data_pdf/cat/s8vk-w_t219-e1_5_1_csm1066917.pdf

...• Increase the output voltage setting of the Power Supplies by the drop in the forward voltage (VF) of diodes D1 and D2. Also, the diodes will cause a power loss equivalent to the Power Suppl...

https://www.omron-ap.co.nz/data_pdf/cat/s8vk-w_t219-e1_5_1_csm1066917.pdf

...• Increase the output voltage setting of the Power Supplies by the drop in the forward voltage (VF) of diodes D1 and D2. Also, the diodes will cause a power loss equivalent to the Power Suppl...

https://www.omron-ap.co.th/data_pdf/cat/s8vk-w_t219-e1_5_1_csm1066917.pdf

...• Increase the output voltage setting of the Power Supplies by the drop in the forward voltage (VF) of diodes D1 and D2. Also, the diodes will cause a power loss equivalent to the Power Suppl...

https://www.omron-ap.com.my/data_pdf/cat/s8vk-w_t219-e1_5_1_csm1066917.pdf

...• Increase the output voltage setting of the Power Supplies by the drop in the forward voltage (VF) of diodes D1 and D2. Also, the diodes will cause a power loss equivalent to the Power Suppl...

https://www.omron-ap.com.ph/data_pdf/cat/s8vk-w_t219-e1_5_1_csm1066917.pdf

...• Increase the output voltage setting of the Power Supplies by the drop in the forward voltage (VF) of diodes D1 and D2. Also, the diodes will cause a power loss equivalent to the Power Suppl...

https://www.omron-ap.com/data_pdf/cat/s8vk-w_t219-e1_5_1_csm1066917.pdf

...• Increase the output voltage setting of the Power Supplies by the drop in the forward voltage (VF) of diodes D1 and D2. Also, the diodes will cause a power loss equivalent to the Power Suppl...

https://www.omron.co.id/data_pdf/cat/s8vk-w_t219-e1_5_1_csm1066917.pdf

...• Increase the output voltage setting of the Power Supplies by the drop in the forward voltage (VF) of diodes D1 and D2. Also, the diodes will cause a power loss equivalent to the Power Suppl...

https://www.omron.com.au/data_pdf/cat/s8vk-w_t219-e1_5_1_csm1066917.pdf

... •Increase the output voltage setting of the Power Supplies by the drop in the forward voltage (VF) of diodes D1 and D2. Also, the diodes will cause a power loss equivalent to the Power Suppl...

https://www.omron.com.tw/data_pdf/cat/s8vk-w_t219-e1_5_1_csm1066917.pdf

... (max.) IOUT: Sensor control output (load current) ION:Slave ON current ION = (VCC–V R–V F)/RIN VF: Internal residual voltage of Slave RIN: Input impedance of Slave When ION is smaller than I...

https://www.omron.com.tw/data_pdf/mnu/w347-e1-06_c200hw_cqm1-drt_drt1.pdf

... T5 Synchronization Deceleration MC_SyncOut H4 DecelerationTrigger := TRUE V0=Vconveyor T T T T Vf=0 Deceleration distance: DDecel= (V0 *T5)/ 2 Maximum Deceleration rate: DecMax= 2* (V0 / T5)...

https://www.omron.com.tw/data_pdf/mnu/w539-e1-08_nj501-4500_4400_4320_4310_4300.pdf

...• Increase the output voltage setting of the Power Supplies by the drop in the forward voltage (VF) of diodes D1 and D2. Also, the diodes will cause a power loss equivalent to the Power Suppl...

https://www.omron.com.vn/data_pdf/cat/s8vk-w_t219-e1_5_1_csm1066917.pdf

...力間耐電圧　[VI-O] 3750Vrms 使用周囲温度　[Ta] -40~+110℃ 保管温度　[Tstg] -55~+125℃ はんだ付け温度条件 260℃ 入力側　LED順電圧　最小　[VF] 1.1V 入力側　LED順電圧　標準　[VF] 1.27V 入...

https://components.omron.com/jp-ja/products/relays/G3VM-35-G--351VY-401G--401VY/G3VM-351VY

...力間耐電圧　[VI-O] 3750Vrms 使用周囲温度　[Ta] -40~+110℃ 保管温度　[Tstg] -55~+125℃ はんだ付け温度条件 260℃ 入力側　LED順電圧　最小　[VF] 1.1V 入力側　LED順電圧　標準　[VF] 1.27V 入...

https://components.omron.com/jp-ja/products/relays/G3VM-35-G--351VY-401G--401VY/G3VM-351VY-TR05-

...力間耐電圧　[VI-O] 3750Vrms 使用周囲温度　[Ta] -40~+110℃ 保管温度　[Tstg] -55~+125℃ はんだ付け温度条件 260℃ 入力側　LED順電圧　最小　[VF] 1.1V 入力側　LED順電圧　標準　[VF] 1.27V 入...

https://components.omron.com/jp-ja/products/relays/G3VM-35-G--351VY-401G--401VY/G3VM-401VY

...力間耐電圧　[VI-O] 3750Vrms 使用周囲温度　[Ta] -40~+110℃ 保管温度　[Tstg] -55~+125℃ はんだ付け温度条件 260℃ 入力側　LED順電圧　最小　[VF] 1.1V 入力側　LED順電圧　標準　[VF] 1.27V 入...

https://components.omron.com/jp-ja/products/relays/G3VM-35-G--351VY-401G--401VY/G3VM-401VY-TR05-