検索結果

... Set up The item that is controlled by the input from an external (External-input Models Only) device can be selected. 4. External Input A 7. Display Orientation RUN INIT at a fixed interval. 200 ms to 1 ...

... for channel 2 is always an alarm output for differential operation.) 2OUT Switch to SET mode. SET The detection level and threshold value The current detection level and the peak PEAK Display alternates detection level. 200 ms to 1 ...

...(Blue) Power supply, 0 V 1 2 3 4 K3 ● NPN, Model with Muting Sensor Output Mode (F39-TC5N01) Key Cap for Muting F39-CN6 (orange) 1 2 3 4 40 mΩ max. (connector section) After applying 500 VDC for 60 s: 100...

...[Calculation example] When Tm = 0.05 s, Ts = 0.008 s, and d = 25 mm: S=2,000 mm/s x (0.05 s + 0.008 s) + 8 x (25 mm - 14 mm) = 204 mm . . . Formula (2) If the result < 100 mm, use S = 100 mm. If the result exceeds 500 mm, use the following expression where K = 1,600 mm/s. S=1,600 mm/s x (Tm + Ts) + 8 x (d - 14 mm) . . . Formula (3) If the result of this formula (3) < 500 mm, use S = 500 mm. Possible Circumventing by Reaching Over the Detection Zone If ...

...[Calculation example] When Tm = 0.05 s, Ts = 0.008 s, and d = 25 mm: S=2,000 mm/s x (0.05 s + 0.008 s) + 8 x (25 mm - 14 mm) = 204 mm . . . Formula (2) If the result < 100 mm, use S = 100 mm. If the result exceeds 500 mm, use the following expression where K = 1,600 mm/s. S=1,600 mm/s x (Tm + Ts) + 8 x (d - 14 mm) . . . Formula (3) If the result of this formula (3) < 500 mm, use S = 500 mm. Calculation Example for Systems with Larger Detection Capability than ...

...[Calculation example] When Tm = 0.05 s, Ts = 0.008 s, and d = 14 mm: S=2,000 mm/s x (0.05 s + 0.008 s) + 8 x (14 mm - 14 mm) = 116 mm . . . Formula (2) If the result < 100 mm, use S = 100 mm. If the result exceeds 500 mm, use the following expression where K = 1,600 mm/s. S=1,600 mm/s x (Tm + Ts) + 8 x (d - 14 mm) . . . Formula (3) If the result of this formula (3) < 500 mm, use S = 500 mm. Calculation Example for Systems with Larger Detection Capability than ...

...[Calculation example] When Tm = 0.05 s, Ts = 0.008 s, and d = 14 mm: S=2,000 mm/s x (0.05 s + 0.008 s) + 8 x (14 mm - 14 mm) = 116 mm . . . Formula (2) If the result < 100 mm, use S = 100 mm. If the result exceeds 500 mm, use the following expression where K = 1,600 mm/s. S=1,600 mm/s x (Tm + Ts) + 8 x (d - 14 mm) . . . Formula (3) If the result of this formula (3) < 500 mm, use S = 500 mm. Calculation Example for Systems with Larger Detection Capability than ...

...[Calculation example] When Tm = 0.05 s, Ts = 0.008 s, and d = 14 mm: S=2,000 mm/s x (0.05 s + 0.008 s) + 8 x (14 mm - 14 mm) = 116 mm . . . Formula (2) If the result < 100 mm, use S = 100 mm. If the result exceeds 500 mm, use the following expression where K = 1,600 mm/s. S=1,600 mm/s x (Tm + Ts) + 8 x (d - 14 mm) . . . Formula (3) If the result of this formula (3) < 500 mm, use S = 500 mm. Calculation Example for Systems with Larger Detection Capability than ...

...filter Protectively separated Ground (100 Ω max.) 0.5 m max. Controller power supply Ferrite core Clamp Driver FG Controller Ferrite core Clamp Grounding plate DIO: 5 m max. CompoBus/S: 100 m max. Clamp 0.5 m max. 0.5 m max. Controller Note 1. The cable winding for the ferrite core must be 1 turn. Note 2. Remove the sheathes from the cables at the clamps and ground them directly to the metal plate at the clamps. Note 3. For DIO Position Drivers, remove the sheath from control cables and connect the shield directly to the metal plate. For ...

.../min Servomotors (100 V AC) The following graphs show the characteristics with a 3-m standard cable and 100-V AC input. R88M-W03030L/S (30 W) Repeated usage Continuous usage R88M-W05030L/S (50 W) Repeated usage Continuous usage R88M-W10030L/...

...Torque-Rotational Speed Characteristics for 3,000-r/min Servomotors • 3,000-r/min Servomotors with 100-VAC Power Input The following graphs show the characteristics with a 3-m standard cable and a 100-VAC input.  R88M-G05030H/T (50 W)  R88M-G10030L/...

...-Rotational Speed Characteristics for 3,000-r/min Servomotors  3,000-r/min Servomotors with 100-VAC Power Input The following graphs show the characteristics with a 3-m standard cable and a 100-VAC input.  R88M-G05030H/T (50 W)  R88M-G10030L/...

.... 6.00 00 Parameters cannot be changed while the Inverter is operating. Change the following parameters, if necessary: Parameter No. Function name Data Default value F002 Acceleration Time Setting 1 0.01 to 99.99 ...

... VDC) between external terminal and case. Insulation provided between inputs, outputs, and power supply. 2,000 VAC for 1 min between external terminal and case. Insulation provided between inputs, outputs, and power supply. ±1,500 V on power supply terminals in normal or common mode ±1 µ...

... VDC) between external terminal and case. Insulation provided between inputs, outputs, and power supply. 2,000 VAC for 1 min between external terminal and case. Insulation provided between inputs, outputs, and power supply. ±1,500 V on power supply terminals in normal or common mode ±1 µ...

...ルーチンのR E T命令で割り込 定時割り込み処理 み前のステップへ戻ります。 [全割り込みマスク] • 制御指定:S=100の設定により、I/O割り込み、定時割り込みともに割り込み禁止になります。 [全割り込みマスク解除] • 制御指定:S=200の設定に...

...ルーチンのR E T命令で割り込 定時割り込み処理 み前のステップへ戻ります。 [全割り込みマスク] • 制御指定:S=100の設定により、I/O割り込み、定時割り込みともに割り込み禁止になります。 [全割り込みマスク解除] • 制御指定:S=200の設定に...

...＝0.05 s, Ts＝0.02 s, d＝30 mm のとき S＝2,000 mm/s×（0.05 s＋0.02 s）＋8（30 mm－14 mm） ＝268 mm (2)式の計算結果が 100 mm 未満の場合は、S＝100 mm とします。 また、500 mm を越える場合は、K＝1600 mm/s とした次の式で再計算します。 S＝1600 mm/s×（Tm＋Ts）＋8（d－14 mm） (3)式 式の計算結...

...) e.g.: Tm = 0.05s, Ts = 0.01s, d =14 mm: S = 2,000 mm/s x (0.05s + 0.01s) + 8 (14 mm - 14 mm) = 120 mm Safety distance Beam centre-line Hazardous part Intrusion direction Detection zone Use S = 100 mm if the result of equation (2) is less than 100 mm. Recalculate using the following equation with K = 1,600 mm/s if the result is over 500 mm. S = 1,600 mm/s x (Tm + Ts) + 8 (d - 14 mm) ...(3) Use S = 500 mm if the result from equation (3) is less than 500 ...

...) e.g.: Tm = 0.05s, Ts = 0.01s, d =25 mm: S = 2,000 mm/s x (0.05s + 0.01s) + 8 (25 mm - 14 mm) = 208 mm Safety distance Beam centre-line Hazardous part Intrusion direction Detection zone Use S = 100 mm if the result of equation (2) is less than 100 mm. Recalculate using the following equation with K = 1,600 mm/s if the result is over 500 mm. S = 1,600 mm/s x (Tm + Ts) + 8 (d - 14 mm) ...(3) Use S = 500 mm if the result from equation (3) is less than 500 ...