Motrona LW215: Optical Fiber (Send-) Module for RS422 / HTL Signals (up to 2000 m)
Features
- 4 independent input channels with format A, B, C, D [HTL] or A, /A, B, /B, C, /C, D, /D [RS422], also possible for single channel
- 4 output channels with format A, B, C, D [HTL] or A, /A, B, /B, C, /C, D, /D [RS422]
- Maximum input frequency 1 MHz
- Very short conversion time < 300 ns
- Optical wavelength 850 nm
- Transmission distance up to 2000 meters
- Power supply 5 VDC (for LW215)
- Power supply 10 … 30 VDC (for LW215-1, LW215-2, LW216-3)
- Snap-on housing for top-hat rail (according to EN 60715)
- Pre-configured optical fibers are available
Motrona LW215: Optical Fiber (Send-) Module for RS422 / HTL Signals (up to 2000 m)
Features
- 4 independent input channels with format A, B, C, D [HTL] or A, /A, B, /B, C, /C, D, /D [RS422], also possible for single channel
- 4 output channels with format A, B, C, D [HTL] or A, /A, B, /B, C, /C, D, /D [RS422]
- Maximum input frequency 1 MHz
- Very short conversion time < 300 ns
- Optical wavelength 850 nm
- Transmission distance up to 2000 meters
- Power supply 5 VDC (for LW215)
- Power supply 10 … 30 VDC (for LW215-1, LW215-2, LW216-3)
- Snap-on housing for top-hat rail (according to EN 60715)
- Pre-configured optical fibers are available
The optical waveguide modules LW215 and LW216 together form an optical transmission system for the data transmission of incremental sensor or transmitter signals via an optical waveguide. It is also possible to connect differential signals of any other sources with RS422 or push-pull HTL levels (for example incremental length measuring systems, glass scales, etc.).
Transmitter and receiver modules each have four completely independent channels with differential inputs and outputs. Signals with a maximum data rate of 2 Mbit/sec. can be transmitted on all four channels.
The component with the designation LW215 serves as a transmitting module for light transmission of up to 2000 meters. It converts the incremental signals from conventional sensors, measuring systems or rotary pulse encoders into optical fibre signals. The LW receiver (see LW216) then converts the optical signals back into the original incremental format.