• Address

    C-188, Sector 31-D, P&T Society,

    Korangi Industrial Area,

    Karachi-74900,

    Pakistan

     

  • Call us on

     +92-21-35070751

     +92-300-5776703

  • Mail us @

    info@pakplc.com

     

automotive industry 2

Industry 1536x1536 Standard
services5

We are Pakplc

With over 32 years of experience

C&M Engineering, geographically located in Asia, business city Karachi the heart of Pakistan. Republic in southern Asia, at 23.30º to 36.45º north latitude, and 61º to 75.31º east longitude, bounded on the north and north-west by Afghanistan, on the north-east by China, on the east and south-east by India, on the south by the Arabian Sea and on the west by Iran. The area of Pakistan is 796,095 sq. km (307,374 sq. mi). The time zone of Pakistan is GMT+5. The capital of Pakistan is Islamabad, the largest city of the country is Karachi.
C&M established in 1986, helping manufacturers succeed and grow is what we do best — with industrial automation control and information solutions designed to give our customers a competitive advantage. From stand-alone, industrial components to enterprise-wide integrated systems, our solutions have proven themselves across a wide range of industries and in some of the most demanding manufacturing environments.

End users and machine builders (OEMs) alike rely on our comprehensive portfolio of equipment, software and serivices to deliver value and help them meet their objectives.

Recognized Expertise

We are recognized System Integrators for Siemens Factory Automation Products

Product development

In house development of Embedded Solutions

Pakistan Engineering Council

 

Siemens Approved System Integrator

channel partners small

Simple motion

Simple motion module for positioning control and synchronous control.

Advanced control but simple use as the positioning module


Speed/torque control and synchronous control are supported in addition to the traditional positioning control. Using the "simple motion module setting tool", operations such as positioning setting, monitoring and debugging can be performed easily. In addition, data synchronized with the motion controller can be collected and displayed in waveform.



HSC index 02




●CC-Link IE Field Network connection type
QD77GF4
QD77GF8
QD77GF16


The simple motion module supports the general purpose CC-Link IE Field Network, with its flexible wiring. This module can be used as the CC-Link IE Field's master station*1 while retaining the simple motion module's functions. This realizes flexible networking supporting connection to various devices such as GOT(HMI), remote I/O, inverter, etc.


*1: QD77GF4, QD77GF8, QD77GF16 master station transmission style can use the line type or star type. Up to 104 slave devices can be connected to one network.


*2: The setting and diagnosis function using GX Works2 is disabled.

  QD77GF4 QD77GF8 QD77GF16
Maximum number of control axes 4-axes 8-axes 16-axes
Servo amplifier connection method CC-Link IE Field Network
Maximum distance between stations 100 m
Control system PTP (Point to Point) control, path control (both linear and arc can be set), speed control, speed/position switching control, position/speed switching control, speed-torque control, synchronous control, electronic cam control
Starting time 1-axis linear control
Operation cycle Starting time
0.88 ms 1.77 ms
1.77 ms 3.55 ms
3.55 ms 7.11 ms
1-axis speed control
2-axis linear interpolation control
2-axis circular interpolation control
2-axis speed control
3-axis linear interpolation control
3-axis speed control
4-axis linear interpolation control
4-axis speed control


hsc index 01




●Simple motion module SSCNET Ⅲ/H connection type
QD77MS2
QD77MS4
QD77MS16


The SSCNET Ⅲ/H connection reduces wiring, enables connections of up to 100 m between stations, and easily supports absolute position settings. The upper limit LS, lower limit LS, and near-point dog signals can be input from the servo amplifier, thus greatly reducing wiring. In addition to positioning control and speed control, processes such as synchronous control and electronic cam control can be performed.

High compatibility with conventional models, projects and sequence programs for the positioning module (QD75MH) can be used easily in the simple motion module (QD77MS) projects.

  QD77MS2 QD77MS4 QD77MS16
Maximum number of control axes 2-axes 4-axes 16-axes
Servo amplifier connection method SSCNET Ⅲ/H
Maximum distance between stations 100 m
Control system PTP (Point to Point) control, path control (both linear and arc can be set), speed control, speed/position switching control, position/speed switching control, speed-torque control (press-fit control), synchronous control, electronic cam control, torque control, tightening & press-fit control
Starting time 1-axis linear control 0.88 ms 0.88 ms 1.77 ms
1-axis speed control
2-axis linear interpolation control
2-axis circular interpolation control
2-axis speed control
3-axis linear interpolation control
3-axis speed control
4-axis linear interpolation control
4-axis speed control

Lineup

Number of axes CC-Link IE Field SSCNET Ⅲ/H
2 QD77MS2
4 QD77GF4 QD77MS4
8 QD77GF8
16 QD77GF16 QD77MS16

 

High-speed counter, Pulse input

A selection of high-speed counter modules and pulse counter module for accuracy intensive, high resolution control applications is available.

Pulse input modules capable of high-speed counting

positioning index 01

●High-speed counter module Standard type QD62 QD62E QD62D

●High-speed counter module
Multi-channel high-speed counter module
QD63P6

●High-speed counter module
4 Mpps compatible high-speed counter module
QD64D2

●High-speed counter module
Multi-function counter/timer module
QD65PD2

 

 

Inputs may be connected to a variety of devices for positioning control, precision measurement, etc. The maximum counting speed may be adjusted via parameter (excluding QD64D2) for more reliable counting at lower frequencies.

  • External coincidence output (QD64D2 includes 2 per channel): Select coincidence output, continuous comparison (QD64D2 only), or the coincidence detection interrupt function for flexible high-speed external device control.
  • Many functions are available to satisfy application requirements including the coincidence output test function (QD64D2 only), latch counter function (excluding QD63P6), and preset function.
  • Calculate pulses at speeds up to 8 Mpps (4 multiples of 2 phases). Perform precise position tracking using a high-resolution encoder for demanding applications such as semiconductor and LCD manufacturing. (QD65PD2)

 

Model QD62
(DC input sinking output type)
QD62E
(DC input sourcing output type)
QD62D
(differential input sinking output type)
Number of channels 2 channels
Count input signal Phase 1-phase input, 2-phase input, CW/CCW
Signal level 5/12/24 V DC 2...5 mA EIA Standard RS-422-A Differential line driver level (AM26LS31 [manufactured by Texas Instruments] or equivalent)
Pulse input 1-phase pulse input (x1, x2), CW/CCW, 2-phase (x1, x2, x4)
Counting speed (max.) 200 kpps 500 kpps
Function ·Linear counter function
·Ring counter function
·Coincidence output function
·Preset function
·Latch counter function
·Count disable function
·Sampling counter function
·Periodic pulse counter function

 

Model QD63P6
(DC input)
QD64D2
(DC input sinking output type)
QD65PD2
(DC/Differential input, external output terminals)
Number of channels 6 channels 2 channels 2 channels
Count input signal Phase 1-phase input, 2-phase input, CW/CCW
Signal level 5 V DC 6.4...11.5 mA EIA Standard RS-422-A, differential line driver level (AM26LS31 (manufactured by Texas Instruments Incorporated) or equivalent) [Differential input] EIA Standards RS-422-A, differential line driver level (AM26LS31 [manufactured by Texas Instruments] or equivalent)

[DC input] 5/12/24 V DC, 7...10 mA
Pulse input 1-phase pulse input (x1, x2), CW/CCW, 2-phase (x1, x2, x4)
Counting speed (max.) 200 kpps 4 Mpps [Differential input]···8 Mpps
[DC input]···200 kpps
Function ·Linear counter function
·Ring counter function
·Coincidence detection function
·Preset function ·Periodic pulse counter function
·Linear counter function
·Ring counter function
·Coincidence detection function
·Continuous comparison function
·Preset function
·Latch counter function
·Linear counter function
·Ring counter function
·Coincidence output function
·Cam switch function
·Preset/replace function
·Latch counter function
·Count disable function
·Sampling counter function
·Periodic pulse counter function
·Count disable/preset/replace function
·Latch counter/preset/replace function
·Internal clock function
·Frequency measurement function
·Rotation speed measurement function
·Pulse measurement function
·PWM output function
·General input function
·General output function

positioning index 02

  • Perform extremely accurate position tracking!
    Counting speed up to 8 Mpps (4 multiples of 2 phases)
  • Multiple functions designed for ease of use! Pulse measurement function
    With a resolution of 100 ns, it is possible to perform highly accurate pulse measurement.
    PWM output function
    Precisely control PWM output up to 200 kHz. With a resolution of 0.1 µs, superfine control of the duty cycle is possible.

     

    Cam switch function
    Configure up to 16 cam settings and use up to 8 dedicated outputs. The cam switch function enables highly accurate timing control.
  • Perform sophisticated control using coincidence detection! The coincidence output function allows complex applications to be supported. Depending on the situation, either the cam switch function or the coincidence output function can be used.

Channel isolated pulse input

●Channel isolated pulse input module QD60P8-G

This module is appropriate for the measurement of input pulse counts (related to speed, revolution, instantaneous flow rate, etc.) and the measurement of quantities (length, cumulative flow, and so forth). The QD60P8-G operates on a 10 ms control cycle, thus the minimum value refresh time is 10 ms. The count cycle setting can be changed to the desired time for cumulative count values and moving average pulse counts (sampling pulse counts).

Model QD60P8-G
Number of channels 8 channels
Count input signal Phase 1-phase input
Signal level 5 V DC/12...24 V DC, ≥ 4 mA
Pulse input 1-phase pulse input
Counting speed (max.) 30 k/10 k/1 k/100/50/10/1/0.1 pps

 

 

Lineup

Number of channels Maximum counting speed Channel isolated Input specifications
5 V DC 12 V DC 24 V DC Differential drive output
2 2-phase input 200 kpps QD62
QD62E
QD65PD2
500 kpps QD62D
4 Mpps QD64D2
8 Mpps QD65PD2
6 2-phase input 200 kpps QD63P6
8 1-phase input 30 kpps QD60P8-G

MELSEC-A

AnCPU is suitable for simple systems up to large scale systems

  • When used for large systems with A4UCPU, 4,096 I/O points and program memory capacity of 120k steps are supported.
  • Systems of an even higher processing capacity can be built using A3A, A3U or A4UCPU instead.
  • Systems can easily be expanded to a larger scale by utilizing the network, since A2U, A3U, A4UCPU are compatible with the MELSECECNET/10.

*: Production was terminated in September 2006.

 

MELSEC-QnA

QnACPU features a superior performance and large capacity to support any type of system

  • When used for large systems, 4,096 I/O points, a program memory capacity of 124k steps and expansions up to 7 levels are supported.
  • When many types of special function units are used or when a large number of processes are controlled designs and changes can be implemented quickly through the distribution of tasks among programs.
  • Adjustments and changes in the field, as well as remote monitoring, can be performed simultaneously when the centralized administration of a distributed system is required, or when administration is required in the field.
  • Existing systems can be upgraded to systems with an accelerated processing speed and increased functionality of the AnCPU system, simply by replacing the sequencer CPU and some special function units.

*: Production was terminated in September 2006.


MELSEC-Q4AR

Q4ARCPU redundant PC system

This system is based on the existing system that was configured with a sequencer CPU, which had been enhanced with the redundancy of a power supply, CPU and network, in pursuit of high reliability. It is also a system that made it possible to accelerate the integer calculation process of the CPU and perform PID control.

  • Redundant PC system
    The system is intended for control applications that require high reliability and is designed for continuous operations without suspending any arithmetic operations, even when a CPU unit, network or power supply fails.
  • Independent system of Q4ARCPU
    Q4ARCPU used for the redundant PC system can also be used as an independent CPU for the QnA series.

*: Production was terminated in September 2008.


MELSEC-AnS

AnSCPU saves space and features a superior cost performance

  • Compact dimensions provide greater freedom for installation.
  • The adoption of A2USHCPU-S1 improves the processing capacity of systems.
  • Systems can easily be expanded to a larger scale by utilizing the network, since A2US and A2USHCPU-S1 are compatible with MELSECECNET/10.

*: Production was terminated in September 2014.


MELSEC-QnAS

QnASCPU features a greater number of functions, saves space and features a superior cost performance

  • Compact dimensions provide greater freedom for installation.
  • When many types of special function units are used or when a large number of processes are controlled, designs and changes can be implemented quickly through the distribution of tasks among programs.
  • Adjustments and changes in the field, as well as remote monitoring, can be performed simultaneously when centralized administration of a distributed system is required, or when administration is required in the field.
  • Existing systems can be upgraded to systems with an accelerated processing speed and increased functionality of the AnSCPU system, simply by replacing the sequencer CPU and some special function units.

*: Production was terminated in September 2014.


MELSEC-A0J2H

A compact I/O unit can be incorporated to suit a system

  • 32 points of dedicated input units, 24 points of dedicated output units, as well as 28 and 56 points of I/O mixed units can be combined and incorporated into a system.
  • Photocoupler insulation has been used for all units.
  • The operational status can be verified through the LED displays.
  • Maintenance work is easy with the terminal block connectors.
  • Installation can be performed with thin units that save space (and allow for stacked installations).

*: Production was terminated in September 2008.


MELSEC-A2C

Flexible installations!! Compact sequencer for wire saving units that is optimally suited for distributed controls

A sequencer that dramatically saves space and improves economy is thanks to the development of a compact I/O based on a new concept.
The baseless building block type flexible compact high performance sequencer is the A2CCPU.

*: Production was terminated in September 2006.


Seamless communication between upper-level information systems and lower-level field systems; scalable to fit any application size

Enhanced information communication by networking is the essential requirement in the automation industry. The MELSEC-Q Series provides an open and seamless network environment integrating the following different level of automation networks: CC-Link IE; high-speed and large capacity Ethernet-based integrated open network that connects shop floor and IT system as the core of e-F@ctory, CC-Link; SEMI certified global standard network originating from Japan and Asia, CC-Link/LT; wire-saving sensor level network inherited CC-Link design concept, and AnyWire; sensor level distributed control network.

Network Configurations

Network Configurations

Seamless communication

Seamless communication

Seamless data communication through Ethernet, CC-Link IE, and CC-Link allow easy access to information, no matter where it resides on the network. Through this technology, it is possible to "drill down" from the Enterprise or IT layer through multiple networks accessing programming controllers using GX Works2 programming or other related software.
In addition, many devices supporting SLMP*1 such as vision sensors and RFID controllers may be connected to the CC-Link IE.

*1: SLMP (SeamLess Message Protocol) is a protocol advocated by the CC-Link Partner Association.

CC-Link IE Control

CC-Link IE Control is a high-reliability distributed control network designed to handle very large data communications (128K word) over a high-speed (1 Gbps) dual loop optical cable topology.

*: Compatible modules: QJ71GP21-SX, QJ71GP21S-SX

CC-Link IE Field

CC-Link IE Field is an all-round versatile gigabit Ethernet based network integrating controller, I/O control, safety control, and motion control in a flexible wiring topology supporting star, ring, and line configurations.

*: Compatible modules: QJ71GF11-T2, QS0J71GF11-T2 (safety control), QD77GF4, QD77GF8, QD77GF16 (motion control)

CC-Link IE Field Basic

CC-Link IE Field Network Basic realizes easier network integration, as its cyclic communications stack is software-based, without requiring a dedicated ASIC helping to reduce implementation costs for device partners. CC-Link IE Field Network Basic, which is a part of CC-Link IE, realizes easier connection of Ethernet devices.

*: Compatible modules: QnUDVCPU, QnUDPVCPU

CC-Link

CC-Link is a high-speed and high-reliable deterministic I/O control network which realizes reduced wiring whilst offering multi-vendor compatible products. This open field network is a global standard originating from Japan and Asia.

*: Compatible module: QJ61BT11N

CC-Link Safety

CC-Link Safety is a safety field network that prevents risks on the shop floor.
This realizes a highly-reliable and a high-speed communication with less wiring.

*: Compatible modules: QS0J61BT12

CC-Link / LT

CC-Link/LT is a wire-saving sensor level network which is designed for use in panels between simple discrete devices. Its wiring system is based on reducing incorrect wiring and is based on CC-Link realizing high-speed and robust noise resistance features.

*: Compatible module: QJ61CL12

AnyWire

AnyWireASLINK makes it possible to centrally monitor (visibility) the state of all sensors from the programmable controller, by that improving productivity and reducing operation steps.

*: Modules supporting AnyWireASLINK: QJ51AW12AL, NZ2AW1C2AL

SSCNET Ⅲ/H

SSCNET Ⅲ/H is a dedicated high-speed, high-performance, and highly reliable servo system control network which offers flexible long distance wiring capabilities based on optical fiber cable topology.

*: Compatible modules: QD77MS2, QD77MS4, QD77MS16

BACnet®

This network supports the communication protocol standard BACnet® client function. This network is mainly used to monitor and control airconditioning, lighting and fire detection, etc. in building automation system applications.

*: Compatible modules: QnUDVCPU, QJ71E71-100 (client only)

MODBUS®

Q-Series is now supporting the MODBUS® protocol network, realizing easy communication, with various MODBUS® slave devices compatible with Ethernet MODBUS®/TCP or RS-232/422/485 serial communication.

*: Module supporting MODBUS®/TCP : QJ71MT91 (master/slave functions), QnUDVCPU, QJ71E71-100 (master only)

*: Modules supporting MODBUS®: QJ71MB91 (master/slave functions), QJ71C24N (-R2/R4) (master only)

Network Enterprise level network Control level network Device level network Sensor level network
Information communication Controller distributed control I/O control Safety control Motion control Control
Ethernet          
CC-Link IE Control          
CC-Link IE Field    
CC-Link IE Field Network Basic          
CC-Link          
CC-Link Safety          
CC-Link/LT          
AnyWireASLINK          
SSCNET Ⅲ/H          
BACnet®          
MODBUS®/TCP          
MODBUS®          

Reverse engineering

Extensive reverse engineering service for obsolete controls

Maintenance services

Complete electronic and instrumentation maintenance service for all plants and machines

Green energy

Striving to reduce carbon foot-print, and extensively involved in deployment of renewable energy projects.