Product Description

Danaher made the E141000007001B Miniature optical incremental encoder, which is a small rotating feedback device. The encoder is made in an E14 style and can work at speeds of up to 5000 rpm. The encoder can provide accurate feedback in motion control applications. Danaher designed the encoder to work in systems that need to measure speed and position accurately, like those used in industrial robotics.

From 100 to 2540 pulses per turn, the E141000007001B encoder has a resolution range. The encoder has a two-channel quadrature output (A and B), and an alternative Index (Z) output can also be used. The outgoing signals' duty cycle stays between 45% and 55%, which keeps the pulse widths stable. The quadrature phasing is 90° ± 36° electrical, which makes sure that the right direction sense happens. After both A and B are high, the Index pulse is sent. Its width is 90° ± 25° electrical. The low current usage helps make small electronic designs more energy efficient. Because of its frequency response, the encoder can work with digital counters and controls that work at high speeds.

The E141000007001B miniature optical incremental encoder uses infrared sensing to send out a signal that is correct. From the end of the shaft, Channel A moves ahead of Channel B as it turns clockwise. The accuracy is given as ±3 × (360° ÷ PPR) or ±2.5 arc-minutes, whichever is smaller. The encoder can only use 80 mA of power, which does not include any output loads. The encoder has a minimum frequency response of 100 kHz, which allows it to reliably record signals at fast speeds. The encoder can work steadily at speeds of up to 5000 rpm, which is what a fast-response control system needs. The E141 encoder can be used in devices with limited space that need high-resolution feedback. The encoder has a gated Index pulse function that makes it easier to find the center of the system.