Motrona FM260: Programmable Pulse and Frequency Multiplier
Features
- Pulse input with format A, B, 90° [HTL] or A, /A, B, /B, Z, /Z [RS422]
- 4 control inputs for PNP signals [10 … 30 VDC]
- Input and output frequency up to 1 MHz
- Pulse output with format A, /A, B, /B, Z, /Z and
push-pull characteristic, [5 … 30 VDC] - Power supply 11 … 30 VDC
- Snap-on housing for top-hat rail (according to EN 60715)
- LCD backlighted
- Setup via keys, RS232
- The device multiplies an incoming frequency by a proportional factor F1 and a reciprocal factor F2. The two factors F1 and F2 are adjustable in the range of 0.0005 to 9.9999
- All operation modes provide error-free frequency conversion, with full consideration of the A / B phase and direction of the quadrature signals, therefore no cumulative errors, even with continuous changes of directions and vibrations
- Zero pulse generator: the frequency multiplier generates at the output an index signal with an adjustable pulse interval, which can be synchronized as needed with the zero pulse at the input
Motrona FM260: Programmable Pulse and Frequency Multiplier
Features
- Pulse input with format A, B, 90° [HTL] or A, /A, B, /B, Z, /Z [RS422]
- 4 control inputs for PNP signals [10 … 30 VDC]
- Input and output frequency up to 1 MHz
- Pulse output with format A, /A, B, /B, Z, /Z and
push-pull characteristic, [5 … 30 VDC] - Power supply 11 … 30 VDC
- Snap-on housing for top-hat rail (according to EN 60715)
- LCD backlighted
- Setup via keys, RS232
- The device multiplies an incoming frequency by a proportional factor F1 and a reciprocal factor F2. The two factors F1 and F2 are adjustable in the range of 0.0005 to 9.9999
- All operation modes provide error-free frequency conversion, with full consideration of the A / B phase and direction of the quadrature signals, therefore no cumulative errors, even with continuous changes of directions and vibrations
- Zero pulse generator: the frequency multiplier generates at the output an index signal with an adjustable pulse interval, which can be synchronized as needed with the zero pulse at the input