Productos
Rotary Encoder 400P/R 6mm Incremental Optical Shaft Working Measurement 5-24V ED
Encoder óptico incremental de 6mm para medición de velocidad rotacional, ángulos, aceleración y longitud. Otorga 400 pulsos por vuelta. Se alimenta con 5-24 Vdc.
COD: HTHS0098
Peso: 0.140 Kg
Disponibilidad: Sin Stock
ARS 38494.00
El producto no está disponible para la venta en este momento
Características
Description:
The color of wires may vary slightly, so there are two kind of the connection method you should refer to, one is:
- white=VCC.
- black=GND.
- red=A phase.
- green=B phase.
the other is:
- Yellow = A phase.
- Blue = B phase.
- Red =Vcc power +.
- Black = power -.
Features:
- Suitable for a variety of intelligent control of automatic guillotine paper machine, displacement measurement, civilian measured height human scale, students racing robots and steel cut length control etc.
- For measuring height of civilian body scale, goods angle, acceleration, length measurements and the rotational speed and so on. Compact small size, light weight and easy to install, high speed and high quality.
- Compact small size, light weight and easy to install, high speed and high quality, single-phase 400 pulses/round, two phase 4 frequency doubled to 1600 pulses.
- Incremental rotary encoder with AB two phases, generated by the rotation of the grating disk and opto-identifiable direction.
- Power Source: DC 5-24V. Speed: more than 5000 r/min. Shaft: 6mm/0.23" Dia, 13mm/0.51".
- Length. Size: 39mm/1.53" Dia, 36.5mm/1.43" Length.
- Output is NPN open collector.
- For measuring goods angle, acceleration, length measurements and the rotational speed.
- Connecting either the A or B phase to V+ will burn out the transistors.
- Small size, light weight, easy to install, cost-effective.
- Color: Black.
- Size:5 x 3.7 cm.
- Weight: 140g.
Package included:
1 x Incremental Rotary Encoder.
Note:Light shooting and different displays may cause the color of the item in the picture a little different from the real thing. The measurement allowed error is +/- 1-3 cm.