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Features
MC700 is a universal motion controller for 1 to 4 axis, programmable for multiple motion applications by simple download of the corresponding function firmware
With the use of Matona's CT701 firmware, this unit provides excellent solutions with all kinds of guillotine cutters and rotary eccentric shears needing a cosine-compensated speed profile during the penetration of the tool
Extremely smooth motion to protect mechanical solution, by self-optimizing polynomial speed transitions
High cutting accuracy, even during line acceleration and at high speeds
Programmable cosine-compensated speed profile
Special torque control features to master the impact load when cutting hard materials like stainless steel etc.
Special profile features to avoid deadlock between tool and material
Embedded virtual master axis (selectable)
Black-box unit for cabinet mounting
Remote control and communication facilities via external operator terminal, serial PC communication, PROFIBUS or optional via CANBUS (MC700/CI) etc.
Features
2 pulse inputs with format A, /A, B, /B, Z, /Z [HTL, RS422]
With an input frequency of up to 2 MHz
2 control inputs with format SIN+, SIN-, COS+, COS- [1 Vss] with an input frequency of up to 400 kHz
2 SSI inputs with format DATA+, DATA-, CLOCK+, CLOCK- up to 25 Bit, with SSI switching frequency of 100 Hz ... 1 MHz
2 scalable 14-bit analog inputs for ±10 V or 0/4 ... 20 mA
4 control inputs for PNP / NPN signals [10 ... 30 VDC]
4 fast interrupt inputs for PNP / NPN signals [10 ... 30 VDC]
1 pulse output with format A, /A, B, /B, Z, /Z [RS422]
4 control outputs with push-pull characteristic, short-circuit-proof [5 ... 30 VDC]
2 scalable 14-bit analog outputs for ±10 V or 0/4 ... 20 mA
Loop time approx. 250 µs
Power supply 18 ... 35 VDC
Snap-on housing for top-hat rail (according to EN 60715)
OnBoard interfaces: Ethernet / IP, RS232 / RS485, USB 2.0, CANopen, Modbus RTU
Optional Ethernet interfaces: EtherCAT, Ethernet / IP, Modbus TCP, Powerlink, PROFINET, SERCOS III
Optional Fieldbus interfaces (slave): CC-Link, DeviceNet, PROFIBUS
Operates with all 4-Q-drive systems, equipped with a standardized drive communication bus (e. g. SERCOS-II). Alternatively, ±10 V setpoint can be used
The controllers can be setup by an external operator terminal as well as HMI’s via standardized factory communication bus e.g. PROFINET
Setup via Windows operator software (free of charge)
Features
MC700 is a universal motion controller for 1 to 4 axes, which can be assigned any motion control functions by loading firmware. Together with the firmware BY701 (see firmware), this controller offers excellent synchronous functions for 1 - 4 axes.
The firmware offers all conceivable possibilities for the synchronization of drives, including the influence of phase position and the relative position between the drives and numerous index and print mark functions.
Optionally, a "physical master" or the built-in "virtual master axis" with programmable speeds and ramps can be used as the master drive.
The number of successive axes can be extended arbitrarily via a cascading output.
MC700 controllers can be operated via an external control terminal, serial interface or optional via CANBUS (MC700/CI). PC operator software is included.
PROFIBUS connection possible via gateway PB251 (see accessories)
Features
Solder connection
Metallised plastic enclosure
Mounting screws included
Features
Solder connection
Metallised plastic enclosure
Mounting screws included
Features
Solder connection
Metallised plastic enclosure
Mounting screws included
Features
Solder connection
Metallised plastic enclosure
Mounting screws included
Features
2 pulse inputs with format A, B, Z [HTL] or A, /A, B, /B, Z, /Z [RS422]
Input frequency up to 250 kHz for asymmetrical and up to 1 MHz for symmetric signals
2 control inputs for HTL / PNP signals [10 ... 30 VDC]
2 output channels with format A, B, Z [HTL] or A, /A, B, /B, Z, /Z [RS422], each output adjustable separately
Power supply 12 ... 30 VDC
Snap-on housing for top-hat rail (according to EN 60715)
Features
Pulse input in format A, /A, B, /B, Z, /Z [RS422, HTL]
Pulse input in format A, B, Z [HTL]
Input frequency up to 1 MHz
Pulse output in format A, /A, B, /B, Z, /Z [RS422, HTL]
Pulse output in format A, B, Z [HTL]
Power supply 9 ... 30 VDC
Settings via DIL switches
Level conversion (RS422, HTL single-ended, HTL differential, TTL and vice versa)
Division of two-track A / B pulses with adjustable ratio 1: 1 to 1: 4096
Division of the Z pulse with adjustable ratio 1: 1 to 1: 256
External HTL signals for various functions
Implementation between the two types of representations for the direction of rotation (A / B 90 °, A/B Dir and vice versa, Division possible)
Snap-on housing for top-hat rail (acc. EN 60715)
Dimension (B x H X T) 22,5 x 102 x 102 mm
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 1300 nm
Transmission distance up to 3000 meters
Power supply 5 VDC (for LW213)
Power supply 10 ... 30 VDC (for LW213-1, LW213-2, LW213-3)
Snap-on housing for top-hat rail (according to EN 60715)
Pre-configured optical fibres are available
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 1300 nm
Transmission distances up to 3000 meters
Power supply 5 VDC (for LW214)
Power supply 10 ... 30 VDC (for LW214-1, LW214-2)
Snap-on housing for top-hat rail (according to EN 60715)
Pre-configured optical fibers are available
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
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 LW216)
Power supply 10 ... 30 VDC (for LW216-1, LW216-2)
Snap-on housing for top-hat rail (according to EN 60715)
Pre-configured optical fibers are available
Features
1 SSI input / output channel [RS422] with format DATA+, DATA-, CLOCK+, CLOCK-
1 Error input (LW217) resp. 1 open-drain-output (LW218)
Maximum input frequency 1 MHz
Very short conversion time < 300 nsec.
Optical wavelength 850 nm
Transmission distance up to 2000 meters
Power supply 5 VDC (for LW217)
Power supply 10 ... 30 VDC (for LW217-1)
Free adjustable SSI resolution from 1 ... 99 bit
Snap-on housing for top-hat rail (according to EN 60715)
Pre-configured optical fibres are available
Features
1 SSI input / output channel [RS422] with format DATA+, DATA-, CLOCK+, CLOCK-
1 open-drain-output (LW218)
Maximum input frequency 1 MHz
Very short conversion time < 300 ns
Optical wavelength 1300 nm
Transmission distance up to 2000 meters
Power supply 5 VDC (for LW218)
Power supply 10 ... 30 VDC (for LW218-1)
Free adjustable SSI resolution from 1 ... 99 bit
Snap-on housing for top-hat rail (according to EN 60715)
Glass fibre cables are available ready-assembled
Features
2 pulse inputs with format A, B, 90° [HTL] or A, /A, B, /B [RS422]
4 control inputs for HTL / PNP / NPN / Namur signals [10 ... 30 VDC]
Input frequency up to 300 kHz
4 fast transistor outputs, push-pull, short-circuit-proof [5 … 30 VDC]
1 scalable 14-bit analog output (±10 V or 0/4 … 20 mA)
Loop time approx. 250 µs
Defining incremental dimensions via keyboard
Power supply 24 VAC and 17 … 40 VDC
Compact norm panel housing (according to EN 60715)
Top hat rail mounting by using SM300 support brackets (option)
Setup via keys or via PC by serial RS232 interface
PROFIBUS connection via mMotrona gateway PB251
Features
2 pulse inputs with format A, B, 90° [HTL] or A, /A, B, /B [RS422]
4 control inputs for HTL / PNP / NPN / Namur signals [10 ... 30 VDC]
Input frequency up to 300 kHz
4 fast transistor outputs, push-pull, short-circuit-proof [5 … 30 VDC]
1 scalable 14-bit analog output (±10 V or 0/4 … 20 mA)
Loop time approx. 250 µs
Defining incremental dimensions via keyboard or BCD decade switch on the front
Power supply 24 VAC and 17 … 40 VDC
Compact norm panel housing (according to EN 60715)
Top hat rail mounting by using SM600 support brackets (option)
Setup via keys or via PC by serial RS232 interface
PROFIBUS connection via Motrona gateway PB251
Dimension 96 x 96 x 140 mm (3,78 x 3,78 x 5,51")
Features
Pulse input with format A, B, Z [HTL] (10 ... 30 V)
Input frequency max. 200 kHz
Pulse output with format A, /A, B, /B, Z, /Z [RS422 / TTL]
Power supply 5 VDC
Converts HTL levels (A / B / Z) in TTL / RS422, incl. the inverted signals
Converts also static/separate directional information into a dual channel A / B signal with a 90° phase shift
Open print version with plastic snap-on housing for top-hat rail (according to EN 60715)
Features
Pulse input with format A, /A, B, /B, Z, /Z [TTL / RS422]
Input frequency max. 200 kHz
Pulse output with format A, B, Z [HTL]
Power supply 10 ... 30 VDC
Converts TTL / RS422 signals (A, /A, B, /B, Z, /Z) in HTL format with an output level of 10 ... 30 VDC
Generates additionally an A / B directional information with 90° phase shift‚ a static HIGH / LOW directional signal or separate directional pulses
Open print version with plastic snap-on housing for top-hat rail (according to EN 60715)
Features
1 pulse input with format A, B, Z [HTL] or A, /A, B, /B, Z, /Z [RS422]
Input frequency up to 500 kHz
1 pulse output with format A, /A, B, /B, Z, /Z [RS422, HTL]
Power supply 5 ... 30 VDC
Potential separation between input and output
Possibility to convert A, B / 90 ° directional information into static directional signal and vice versa
Connections on the input as well as on the output either via sub-D plugs or plug-in screw terminals (parallel connections)
Snap-on housing for top-hat rail (according to EN 60715)
Features
Support brackets with a snap mechanism for easy installation of panel housings onto a 35 mm DIN rail (according to EN 60715)
Suitable for display units with front dimensions of 96 x 48 mm
Features
Support brackets with a snap mechanism for easy installation of panel housings onto a 35 mm DIN rail (according to EN 60715)
Suitable for display units with front dimensions of 96 x 96 mm
Features
Suitable for display units with front dimensions 96 x 48 mm
(fits not to Profibus indicator PB340)
Protection class IP65
Features
To increase the protection class in dusty or wet environments, several types of protection caps are available for motrona units.
Some of the elastic and transparent plastic caps allow you to operate the keypad or to set the thumbwheel switches behind the cap, without removing it.
Features
Wide temperature range
Superior environment resistance
Vibration: 196m/s2{20G} at 10Hz .500Hz, for 2 hours to each of three axes.
Shock: 981m/s2{100G} for 6ms, 3 times to each of 6 axes, 18 times in total
Humidity: 90% RH or above at 60°C
High-speed rotation
High reliability - Extremely long life and high reliability are assured by the structure of mechanical parts and automated coil incorporation.
Absolute position detection
Long-distance transmission - Robustness against noise enables long-distance transmission
Capable of compact incorporation - The use of built-in types of Smartsyn minimizes the housings of motors. Best suited for compact design
Low cost
Multipolarization is possible by increasing the multiplication factor of angle
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