Description

The 2094-BC07-M05 is an n integrated axis module that is part of the Kinetix 6000 multi-axis drive.

The module is 400 V class with converter and inverter ratings of 45 kW and 49 a. The module has a power consumption of 71-226 watts. It does not have an integrated Safe Torque Off (STO) feature.

About 2094-BC07-M05

The 2094-BC07-M05 is a multi-axis servo drive that belongs to the Kinetix 6000 product category.

The drive has an input voltage range of 324-528 Vrms, 3-phase, a nominal power supply range of 360 VAC-480 VAC, and an input frequency of 47-63 Hz.

And the control power supply AC voltage is dcs-sis.com designed for 95-264 VACrms, 1 phase, with a nominal supply range of 110-240 VACrms.

It has a maximum input current of 71.0 (rms) amps and a maximum inrush current (0-pk) of 62.2 amps.

The module’s DC input voltage range (common bus follower) is 458-747 V DC, while the DC input current (common bus follower) is 67.7 A. The module has a maximum input current of 71.0 (rms) amps, while the maximum inrush current (0-pk) is 62.2 amps.

The servo drive has a continuous output power to the bus of 45 kW, while the a-series drives have a peak output power of 90 kW.

The B, S and D series drives have a maximum output power of 135 kW and an efficiency of 97 per cent.

Similarly, the drives have a continuous output current to the bus of 67.7 amps and a peak output current to the bus of 135 amps.

Series A drives are 4 amps and Series B, C and D drives are 203.2 amps.

The bus voltage rating for this driver is 825 VDC with a bus undervoltage of 275 VDC. the internal circuits have a continuous power rating of 200 W and a peak power rating of 22.5 kW.

The appropriate internal circuit resistor has a resistance value of 28.75 . It is symmetrical with a converter inductance of 75H, an inverter capacitance of 1410F and a short-circuit current rating of 200.000 A (rms).

Description.

The 1785-L80B is an Allen-Bradley Enhanced PLC5 programmable logic controller (PLC).

The controller has 100.000 words of embedded user memory and is equipped with several communication interfaces.

Examples include four (4) DH/Remote I/O (adapters or scanners), one (1) configurable RS-232. -423. and RS-422A compatible serial port, and two (2) programming terminals.

It can accommodate up to 3072 arbitrary mixes or 3072 inputs and 3072 outputs in free mode!

About the 1785-L80B

The Programmable Controller 1785-L80B is the core dcs-sis.com component of every control system based on the Allen-Bradley PLC-5 Series.

The 1785-L80B connects local, expansion, and remote I/O modules on a variety of communication interfaces into a single control system.

There are four built-in ports on the 1785-L80B controller. The ports are labelled Channel 1A, Channel 1B, Channel 2A and Channel 2B.

All ports can be configured as remote I/O scanners, remote I/O adapters, and DH communication interfaces.

DH communications can be used both for remote programming and monitoring of the 1785-L80B and for creating peer-to-peer communication networks between various PLC-5 controllers.

The Remote I/O connection is used for real-time data exchange between the controller and I/O, operator interface and other functions.

All four channels on the 1785-L80B can be used as either remote I/O scanners or remote I/O communications adapters.

The 1785-L80B is designed with multiple communication interfaces that can be used to communicate with different automation devices simultaneously.

It has four (4) DH/Remote I/Os (adapters or scanners) labelled CH1A, CH1B; CH2A and CH2B;.

One (1) configurable serial port for RS-232 and RS-422A electrical standards supporting the DF1 protocol, and two (2) programming terminals.

The 1785-L80B is capable of communicating with up to 93 I/O chassis and up to 32 Remote I/O (RIO) racks.

Enhanced PLC 5 controllers, such as the 1785-L80B, are primarily used when the control system needs to communicate with a large number of remote I/O (RIO) devices and when connecting to a large number of Data Highway+ (DH) devices.

For installation, the 1785-L80B can be mounted in the 1771-A1B, 1771-A2B, 1771-A3B, 1717-A3B1. and 1771-A4B PLC5 chassis.

Power supplies supported by this processor include the 1770-P1. 1770-P45. 1770-P5. 1771-PE, 1771-P4S1. 1771-P6S1. 771-P4R, and 1771-P5R.

It is also used to configure I/O modules and expansion racks.

DESCRIPTION

The Allen-Bradley 1394-SJT22-A is a GMC standard system module with a /-10VDC input.

The module requires an input voltage of 380/460 volts AC, three phase, an input frequency of 50/60 Hz, and a current of 28.6 amps.

It has an electrical output voltage of 530/680 V DC and a continuous power output of 17/22 kW with a peak power of 136 kW.

The continuous current output is 33.8 A and the peak current is 200.0 amps.

About the 1394-SJT22-A

The 1394-SJT22-A is a 1394 GMC Turbo system module that is part of the Allen-Bradley 1394 multi-axis motion control system.

The system module is primarily used for analogue servo dcs-sis.com systems and provides digital servo drives with a /-10VDC interface.

The system module is mounted on the far left side of the 1394 assembly, which includes the axis modules, bus connectors, and termination resistors.

Each module is mounted via a slide-lock mechanism and fasteners that are precisely aligned with each other.

The system module uses RS232/422 communication and supports the DH485 communication protocol. It can optionally be fitted with Remote I/O communication (RIO) and AxisLink communication interfaces.

When installing this system module or any other product in a 1394 system, the ambient temperature of the mounting location must be no higher than 50.0 degrees Celsius and mounted on a flat, stable vertical surface.

The mounting panel must have minimal shock and vibration, and the environment must be free of moisture, oil, dust, and corrosive gases.

This system module is not equipped with an internal shunt resistor. An external shunt module must be installed.

Compatible shunt resistors include the 1394-SR9A, -SR9AF, -SR36A, or -SR36AF manufactured by Allen-Bradley.

The shunt module generates a significant amount of heat. Because hot air rises naturally, instruments or components that may be affected by hot air must not be mounted on top of the external shunt module.

The top clearance must be 254 mm (10.0 inches) and 155 mm (6.1 inches) on both sides, including the bottom area of the system module.