PLC & HMI RIEVTECH ZONA INDUSTRIAL SPA

Distribuidor para Chile y Sudamérica Zona Industrial Spa. www.zonaindustrial.cl

Advanced Control • Simple Maintenance • Reliable • Economical

MICRO PLC PR SERIES

Programmable Logic Controller

Introducing

What is a Logic Controller? A Logic Controller is a compact electronic device included in the Micro-PLC family. It can be used to control and monitor a set of conditions according to the state of the sensors, the passing of time and the program created using software. Logic Controllers can be preprogrammed to perform certain tasks (time, count, detect, display, communicate or process) and at specific and selected times and intervals. Logic Controllers use either relays or solid state outputs to control operations. Forget individual components, such as rotary timers, cube relays, counters and contactors – or complex and expensive PLCs. Logic Controllers can meet your control needs in a variety of compact, stand-alone and low-complexity applications.

SENSORS

ACTUATORS

Lamp

Push Button

POWER

DIGITAL INPUTS

DIGITAL OUTPUTS

Contactor

Limit Switch

CPU USER PROGRAM

Linear

Temperature

ANALOG INPUTS

ANALOG OUTPUTS

Motor Drive

COMMUNICATION

MD

Pressure

TO OTHER PLC, HMI, PC

Rievtech Micro PLC Series Rievtech Micro PLC is a highly reliable, easy-to-use and wide- range product. It will become an indispensable assistant for those who want to optimize and automate their production or system. Rievtech Micro PLC is versatile! They are a high quality product! As the manufacturer, we provide excellent technical support and help! Choosing our brand of Micro PLC will provide you with confidence in your choice! In adddition to the features and interfaces common to most PLCs, Rievtech Micro PLCs incorporate a number of advanced features. Some of these features include high speed outputs (as example

for stepper motion control), PWM (pulse width modulation), PID control, high speed pulse counter inputs, LCD and keypad, support Modbus protocols (Master mode as well) and other. Models have additional communications ports for interfacing HMIs, other PLCs and other devices. Rievtech Micro PLCs are programmable, using Rievtech’s xLogic software.

Benefits

Enhanced and efficient development process

Reduced system cost

Reduced development time

Improved reliability

Rapid development and deployment

2

Main Applications

123

Small PLC

123

Timers, Counters, Relays (> 3 Devices)

123

Timers, Counters, Relays (<= 2 Devices)

Capability

Building Automation Smart Home, Data Center, Hotels, Hypermarket, Offices, Residential, Shopping centers, Greenhouses, Warehouses, Breeding complexes Process Automation Agricultural and Food Industry, Printing and paper industry, Material Handling Industries, Textile industry, Water & Wastewater Treatment, Forming Technology/Sheet Metal Working Machine Automation Vending machines, Woodworking Machines, Plastic Machines, Machine Tools, Window Production Machines, Washing Machines, Test facilities

Smart Energy Wind Turbine, Solar energy, Heat pumps, Heaters, Power generators

3

Product Line-UP

PR-6 Series 6 I/O Not Expandable PR-6AC-R AC

PR-12 Series 12 I/O Not Expandable PR-12AC-R-E AC

PR-12AC-R AC

PR-12DC-DA-R-E DC

PR-12DC-DA-R DC

PR-12DC-DA-TN DC

PR-6DC-DA-R DC

PR-6AC-R

PR-6DC-DA-R

PR-12AC-R-E

PR-12DC-DA-R-E

PR-12AC-R

PR-12DC-DA-R

PR-12DC-DA-TN

Model

Power

12-24V DC

110-240V AC

12-24V DC

12-24V DC

110-240V AC

12-24V DC

110-240V AC

Inputs

4

4

8

8

8

8

8

As Analog

No

No

No

4 (0-10V) 9 Bit

4 (0-10V) 9 Bit

4 (0-10V) 10 Bit

4 (0-10V) 10 Bit

Outputs

2 Relay

2 Relay

4 Relay

4 Relay

4 Relay

4 Relay

4 Transistor PNP

LCD

No

No

No

No

LCD 4x16 Symbols

LCD 4x16 Symbols

LCD 4x16 Symbols

Expansion

No

No

No

No

No

No

No

Real Time Clock

RTC with Backup

RTC with Backup

RTC with Backup

RTC with Backup

RTC with Backup

RTC with Backup

RTC with Backup

Program Memory

64 Blocks

64 Blocks

64 Blocks

64 Blocks

512 Blocks/5k Steps

512 Blocks/5k Steps

512 Blocks/5k Steps

High-speed Inputs

No

No

No

No

No

4 Channels 60kHz

4 Channels 60kHz

High-speed outputs

No

No

No

No

No

No

2 Channels 10kHz

with Cable RS232

with Cable RS232

with Cable RS232

with Cable RS232

with Cable RS232

with Cable RS232

with Cable RS232

RS232

RS232

RS232

RS232

RS232

RS232

RS232

COM Ports1

with Cable PRO-RS485

with Cable PRO-RS485

with Cable PRO-RS485

with Cable PRO-RS485

with Cable PRO-RS485

with Cable PRO-RS485

with Cable PRO-RS485

RS485

RS485

RS485

RS485

RS485

RS485

RS485

Size

4DIN

4DIN

4DIN

4DIN

4DIN

2DIN

2DIN

1 - Only one type of a Cable can be connected to Universal Port

PR-14 Series 14 I/O Expandable

PR-18 Series

PR-24 Series

18 I/O Expandable PR-18AC-R AC

24 I/O Expandable PR-24AC-R AC

PR-14AC-R AC

PR-18DC-DA-R DC

PR-24DC-DA-R DC

PR-24DC-DAI-RTA DC

PR-14DC-DA-R DC

PR-18DC-DA-RT DC

Model

PR-14AC-R

PR-14DC-DA-R

PR-18AC-R

PR-18DC-DA-R

PR-18DC-DA-RT

PR-24AC-R

PR-24DC-DA-R

PR-24DC-DAI-RTA

Power

12-24V DC

110-240V AC

12-24V DC

12-24V DC

12-24V DC

110-240V AC

12-24V DC

110-240V AC

Inputs

12

12

14

14

14 (12 Digital)

10

10

12

As Analog

No

No

6 (0-10V) 10 Bit

6 (0-10V) 10 Bit

6 (0-10V) 10 Bit

6 (0-10V) 10 Bit

No

6 (0-10V) 10 Bit 2 (0-20mA) 10 Bit

Outputs

4 Relay

4 Relay

4 Relay

6 Relay

6 Relay

4 Trans. PNP

10 Relay

10 Relay

6 Relay

2 Trans. PNP 1 Analog

LCD

LCD 4x16 Symbols

LCD 4x16 Symbols

LCD 4x16 Symbols

LCD 4x16 Symbols

LCD 4x16 Symbols

LCD 4x16 Symbols

LCD 4x16 Symbols

LCD 4x16 Symbols

Expansion

Up to16 Modules

Up to16 Modules

Up to16 Modules

Up to16 Modules

Up to16 Modules

Up to16 Modules

Up to16 Modules

Up to16 Modules

Real Time Clock

RTC with Backup

RTC with Backup

RTC with Backup

RTC with Backup

RTC with Backup

RTC with Backup

RTC with Backup

RTC with Backup

Program Memory

512 Blocks/5k Steps

512 Blocks/5k Steps

1024 Blocks/13k Steps

1024 Blocks/13k Steps 1024 Blocks/13k Steps 1024 Blocks/13k Steps 1024 Blocks/13k Steps

1024 Blocks/13k Steps

High-speed Inputs

No

4 Channels 60kHz

4 Channels 60kHz

4 Channels 60kHz

4 Channels 60kHz

4 Channels 60kHz

No

No

High-speed outputs

2 Channels 10kHz

2 Channels 10kHz

No

No

No

No

No

No

with Cable RS232

with Cable RS232

with Cable RS232

with Cable RS232

with Cable RS232

with Cable RS232

with Cable RS232

with Cable RS232

RS232

RS232

RS232

RS232

RS232

RS232

RS232

RS232

with Cable PRO-RS485

with Cable PRO-RS485

with Cable PRO-RS485

with Cable PRO-RS485

with Cable PRO-RS485

with Cable PRO-RS485

with Cable PRO-RS485

with Cable PRO-RS485

RS485

RS485

RS485

RS485

RS485

RS485

RS485

RS485

COM Ports1

RS485

with Module PR-E-RS485

with Module PR-E-RS485

with Module PR-E-RS485

RS485

RS485

RS485

RS485

RS485

RS485

RS485

Built-in

Built-in

Built-in

Built-in

Built-in

with Module PR-E-RS485

with Module PR-E-RS485

with Module PR-E-RS485

with Module PR-E-RS485

with Module PR-E-RS485

RS485

RS485

RS485

RS485

RS485

Size

6DIN

6DIN

6DIN

8DIN

8DIN

8DIN

6DIN

6DIN

1 - Only one type of a Cable can be connected to Universal Port Please refer to specication pages for the details of each model

4

Inputs

Digital Inputs All Rievtech PLCs accept a some number of digital inputs. Digital inputs sense binary status, such as on/off, switch open/closed, etc.

Digital Input Sensors

The AC versions of the Micro PLC are suitable for operation with rated voltages between 110 V AC and 240 V AC. The DC versions can be operated with a 12 - 24 V DC power supply.

Push buttons Limit switches Proximity sensors Photo-electric sensors Level switches Pressure switches Auxiliary contacts of a contactors Relay/contactor contacts

Any connection to AC voltage more than 79 V AC is sensed as a ‘1’ (for AC versions) or DC voltage more than 10 V DC (for DC versions). Voltage below 40V AC (or 5V DC for DC versions) or an open connection is sensed as ‘0’.

The minimum time for a change in state of a digital input, is 50ms for the change to be detected (except high speed inputs which can operate up to 60 kHz).

Digital inputs include push-buttons, limit switches, relay contacts, proximity switches, photo sensors (On/Off), pressure switches and more. Digital input devices are available in both DC as well as AC and some are voltage independent such as a switch contact.

AC Input

Sinking DC Input

MIRCO PLC AC Version

MIRCO PLC DC Version

Common

Common

-

Input Sensing

Input Sensing

AC 110-240V

DC 12-24V

+

Input

Input

5

Inputs

Analog Inputs Rievtech Micro PLCs are available with analog inputs too. PLC analog input interfaces are available for either 0-10VDC, 0-20mA or PT100. Analog inputs are normally used to connect to transducer outputs. Such transducers measure some physical parameter, such as pressure, temperature, liquid level, position, pH level, or other such continuously variable measurement. The transducer signal output should be connected to a signal input on the PLC analog input channel and the transducer return or ground reference line must be connected to the PLC common.

Some CPUs can be set to either analog or digital for use in the program. They will be recognized as analog inputs when the input terminal is connected with an analog function block, and they will be recognized as switching inputs when the input terminal is not connected with an analog function block.

Full range analog signals will convert to a value between 0 and 1000 (10 bits) for inputs on CPU and to a value between 0 and 512 (9 bit) for expansion modules.

Scale function in xLogicSoft can be used to automatically convert the signal value to meaningful data.

MIRCO PLC 0-10V Inputs

MIRCO PLC 0/4-20mA Inputs

Power Supply

Common

Common

+ _

Voltage Transmitter

Current Transmitter

ADC

ADC

Analog Input

Analog Input

ADC - Analog-to-Digital Converter

ADC - Analog-to-Digital Converter

6

Inputs

Analog Input Sensors

Temperature Sensors Flow sensors Humidity sensors Potentiometers Pressure Sensors

Tank Levels Load Calls Light Sensors Speed and position sensors

PT100 Inputs Using the extension module It can be connected with one two-wire or three-wire Resistance Temperature Detector (RTD) PT100. The RTD sensor is comprised of a resistor that changes value with temperature. The most common RTD by far is the PT100 385. This element measures 100 Ohms @ 0 degrees C (32 °F) and 138.5 Ohms @ 100 °C (212.0 °F). The temperature range for a PT100 inputs is within -50 to 200 °C (resolution 0.3 °C).

Using a two-wire connection the unit can not compensate error/ tolerance caused by the resistance in measurement loop. The measurement error of 1Ω is equivalent to an error of 2.5 °C. The three-wire technology can inhibit the influence of measurement results caused by cable length (ohmic resistance).

Three-wire connection

MIRCO PLC PT100 Inputs

Two-wire connection

MIRCO PLC PT100 Inputs

Compensator

Compensator

Input “+”

Input “+”

RTD PT100

RTD PT100

A

ADC

A

ADC

Input “-”

Input “-”

A - Amplier; ADC - Analog-to-Digital Converter

A - Amplier; ADC - Analog-to-Digital Converter

7

Outputs

Digital Outputs Digital output (DO) are for the ON/OFF in your control scheme. Some examples are the On/Off control of motors, lighting, solenoid valves, door locks.

All Rievtech PLCs have a number of digital outputs.

Relay Outputs Existence of relays as outputs makes it easier to connect with external devices. A relay is non-polarized and typically it can switch either AC or DC. Relay dry contacts are the quick choice since they are voltage independent and they provide an easy interface to a customer’s system. Relays generally have a higher current rating than transistors, but have a mechanical life span that has to be considered. The maximum ON output current that can be switched by our Micro PLC is 10A for the resistance load and 3A for the inductive load.

MIRCO PLC Relay Outputs

AC or DC Supply

Output

LOAD

Transistor Outputs Transistor type outputs can only switch a DC current.

MIRCO PLC Transistor Outputs

Power Supply

Micro PLC digital outputs are sinking transistor outputs - which means that they provide the ground connection turn on a load. When switched on under program control, they complete the circuit to turn on any connected DC device up to 60VDC and 300mA.

M

Output

LOAD

They are smaller and thus offer higher I/O count per unit of circuit board real estate. You may also choose them for faster switching speeds and longevity over relays.

Output

8

Outputs

Analog Outputs Analog output (AO) are for variable level or range of output between OFF or stopped and ON or full speed as for an electric motor for instance. Examples of analog outputs are a VFD (Variable Frequency Drive), a valve position actuator, and a industrial variable power supply.

The analog outputs (0-10V or 0-20mA) have a 10-bit digital resolution.

MIRCO PLC Analog Outputs

Common

Digital and Analog Output Devices

LOAD

Output 0-10V or 0-20mA

A

DAC

Valves Drives Acuters Positioners Heaters Motor Speed Chart Recorders Analog Meters

Motor starters Contactors Lamps Alarm Hooters Solenoid Valves Coils Pumps

A - Amplier; DAC - Digital-to-Analog Converter

9

High Speed Inputs

Many machine control applications require various types of simple high-speed monitoring and control. These applications usually involve some type of motion control, or high-speed interrupts for time-critical events. The Rievtech Micro PLC solves this traditionally expensive problem with built-in CPU enhancements. High Speed Inputs The counting frequency of an ordinary PLC’s inputs can only reach tens of Hz. If the frequency of the input signal is higher than that, it is necessary to utilize high-speed inputs and high-speed counters (HSC), otherwise loss or errors in counting may occur. All DC models (except PR-6DC-DA-R and PR-12DC-DA-R-E) have 4 built-in high-speed inputs which can count pulses at a maximum rate of 60kHz for a single phase. This allows direct connection with a rotary encoder and counting input from the encoder. The Micro PLC can be used for various applications, such as speed measurement and high speed interval counting; by utilizing the input capture functions.

The encoder output pulse can be input to the high-speed counter to control such a high-speed operation.

Control an inverter by entering positional information with an encoder. Gather real-time production information and control with precision.

Measuring the Pulse Frequency

One useful application of the high speed input capability is to measure the speed of rotation of a motor. A simple optical sensor, coupled with a rotating disk with slots tted to the shaft of a motor can be fabricated economically. When the motor turns, the sensor will generate a series of pulses. The frequency of this pulse train relates directly to the rotational speed of the motor and can be used to provide precise speed control.

t

tpu

C

ou

PL

lse

ro

Pu

Mic

to

or

ns

se

oto

it

Ph

ircu

g c

rin

ua

Sq

D

LE

Specified period

k

Dis

Pulse input in a spesied period by a single instruction are counted, and the frequency is calculated

Setting range: 1 ms to 99,000 ms

10

High Speed Inputs

Measuring Line Speed and Length of film or paper on a production line

This application shows how to measure and calculate line speed and length of rolled lm moving down a production line by the number of generated pulse and roll diameter from a rotary encoder.

Mo

tor

Rota

ry e

nco

ders

The rotary encoder is connected to a rolling shaft on a lm production line.

Using digital outputs allows send a command signal to cut a lm or to send an alert to a signal tower.

Hig

h-sp

eed

inp uts

Riev

tech

Mic

ro P

LC

11

High Speed Outputs

Pulse Train Output Positioning control with servo motors and stepper motors is possible without specialized units. High Speed Outputs In PLCs that have transistor outputs, the terminal for output bits 0 and 1 can be used not only as a usual external output but as pulse output with up to 10kHz. The pulse output can be operated with dedicated instructions, allowing easy control based on pulse train output and pulse width modulation.

The High-speed Output (HSO) generates output pulse trains suitable for open-loop control of a single-axis motion positioning system. It generates pulse (stepper increment) and direction signals which you can connect to motor drive systems and perform various types of motion control. Error detection can be available by using the high-speed counter in combination. Unexpected incidents, such as errors in the driving system, can be detected by setting the counter so that it counts the feedback pulses from an encoder during positioning. Simple positioning control, fine tuning of conveyor’s moving distance, etc. are possible by pulse train output.

2

yor

nve

Co

Programm can be combined to create an application for counting pulse signals from the encoders through the high-speed counter inputs and adjusting the pulse output frequency based on the count to synchronize the slave axis speed with the master axis speed.

er

cod

e En

Slav

Co

nve

or

yor

Mot

1

The speed of conveyor 1 is measured based on the Master encoder pulse count, and pulses are output to the stepper motor according to the measured speed in order to synchronize the speed of conveyor 2.

per

Step

e

Driv

der

nco

ter E

Mas

utpu t

Wiring Micro PLC to Stepper Motor

e O

Puls

Rievtech Micro PLC

Stepper Motor

LC

Stepper Driver

ro P

Mic

-

tech

DC 12-24V

Riev

+

To Motor

Dir + Pulse Output - Step +

12

High Speed Outputs

Pulse-Width Modulation (PWM) Output The pulse output of the Micro PLC can also serve as a PWM output port. Pulse-Width Modulation (PWM) is a highly efficient and convenient way of controlling output voltage to devices with large time constant, such as controlling the speed of a DC motor, the power to a heating element, light brightness control or the position of a proportional valve. PWM works by first turning the output to full voltage for a short while and then shutting it off for another short while and then turning it on again and so on in accurate time intervals. The advantage of using PWM is that you can easily amplify the drive current to a larger load such as larger permanent magnet DC motor by using low cost DC Solid-State Relays (SSR) to boost the current switching capability. Using SSR has the added advantage of isolating the CPU from the high current load.

PWM as Analog Voltage Output

Inverter

Rievtech Micro PLC

Low-cost analog output

R1

DC 12-24V

-

C1

+

PWM Output

Com

Vin

GND

Width of pulse (a)

Width of pause (b)

V full

a + b x V full a

Avarage voltage

Modulation period

The speed can be controlled by changing the pulse width of the PWM output.

ter

Cut

r

ode

Enc

The output can also serve as an analog voltage output when a smoothing capacitor is inserted in the circuit. One of the application examples such an analog voltage output is an inverter speed control.

tor

Mo

r ter

Inve

PL C

icro

h M

ut

vtec

utp

Rie

M O

PW

13

Other Userful Functions

LCD and Keypad Rievtech PLCs (except PR-6 and PR-12 Economy Series) have a built-in LCD display with a brighter, higher contrast screen you can adjust to your own preference. System status — input, output, analog values, timers and counters — can be monitored through the 4x16 LCD screen or you can display a predefined message with up to 64 characters. Non-LCD versions are also available.

System menu is available in multiple languages. Checking or changing some device values Micro PLC does not need to be connected to a PC. Making precise on-line adjustments to internal blocks, such as timers, counters while the PLC is operating.

Potential Uses The potential uses for the LCD display and keypad vary widely. An operator can change values for setting up batch processes or machine timing for manufacturing different products, etc. Maintenance personnel can interface in the control cabinet to identify machine problems. LCD messages can be preprogrammed for process events or alarms.

Operational Control Buttons Program with just the push of a button! Micro PLC control buttons can be used to program, modify and change preset parameters. The four cursor keys can also be configured as inputs as needed.

14

Other Userful Functions

Real-Time Clock with Backup A real time clock (RTC) has been built in all PR models. No matter whether the PLC is switched on or off (up to 20 days when power is off), the RTC will keep accurate time. It provides 7 units of time data-week, year, month, day, hour, minute and second. For applications that require the RTC to continue running more than 20 days after power off you can purchase a PR-Battery accessories or insert a 3V on-board lithium battery in the inner battery socket (Only for PR-24 Series). Users can take advantage of the real time clock to do 24 hour controls throughout the year (for example, businesses or factories can switch lights on and off at set times each day, control gate access, and do pre-cooling and pre-heating before business or operations begin).

Large Program Capacity (Largest in its class)

Program capacity

1024 Blocks/13KSteps

PR-18, PR-24

Your PLC needs enough storage space to handle the amount of tasks you are going to assign and it doesn’t hurt to have a little extra for future needs. Rievtech Micro PLC is equipped with abundant memory capacity. With 1024 blocks (13k Steps) (For PR-18, PR-24) of logic controls programming, complex PLC programs can be constructed without much restriction.

2 times larger memory capacity

512 Blocks/5KSteps

PR-12, PR-14

64 Blocks

PR-6, PR-12-E

Data Logging to a Micro SD Card Data–logging is the process of collecting, in real time, determined process parameters such as conditions, values, as well as the time that said information is collected, or noted. Having historical data available to you when trying to find or correct an issue can make a huge difference. PR-MEMORY allows you to log up to 2GB of tag data. This data is saved in .txt format on a removable micro SD card and can be easily downloaded to your PC.

1010101 1010101

*.txt

Transport Programs between PLCs with PR-Copier Experience true program file portability using our accessories PR- Copier. Quickly backup existing programs, restore or download new programs, and easily transfer programs between PLCs.

d

loa

wn

Do

d

loa

Up

15

Expandability

For PR-14, PR-18 and PR-24 Series, the number of I/O points can be increased up to 140DI or 80AI and 136DO or 34AO (up to 280 I/O in total) by adding digital I/O units to the basic unit. Up to 16 digital I/O units can be added.

and reduces replacement parts inventory. Modules can be either DIN rail or panel mounted.

230V CPUs can be expanded with analog modules.

Expansion I/O modules extend the capabilities of the PR-14, PR- 18 and PR24 controllers by maximizing flexibility of the I/O count and type. The modular, rackless design enhances cost savings

You can use such modules: PR-E-16AC-R, PR-E-16DC-DA-R, PR-R-16DC-DA-TN, PR-E-AI-I, PR-E-PT100, PR-E-AQ-VI, PR- RS485

16

Communication

MODBUS Master-Slave Communication

RS232 (USB) Port – Serial COM0 All Micro PLCs have built-in the universal communication port with optional USB or RS232 interface. USB interface complies with standard functional specification of USB1.1 Besides providing the standard RS232 interface, the universal port also provided USB interface since more and more notebook computers are using USB port to replace COM ports due to light weight and thickness considerations. To connect to the RS232 port, use an RS232 cable with galvanic isolation or USB Cable to connect to USB port of PC. RS232ports are commonly used for interfacing hardwareHMI panels and other devices through Modbus RTU/ASCII communications. RS232 Port can be used as a Modbus RTU master or slave protocol device, or handle ASCII data In or Out (ASCII stands for American Standard Code for Information Interchange and defines a Modbus is the most popular industrial protocol being used today, for good reasons. It is simple, inexpensive, universal, and easy to use. The Micro PLC can be networked to other Micro PLCs, data input devices (barcode readers, weight scales, etc.), and/or data output devices (serial printers, serial text displays, etc.). It is also possible to network the Micro PLC to other 3rd party PLCs and devices that have the ability to communicate using the Modbus RTU protocol. Modbus -Compatible Rievtech Micro PLCs are compatible with the world’s Modbus* de facto standard and can serve as both Modbus master and slave RTUs, which are ideal for air conditioning or temperature control etc.

MASTER

SLAVE

Initiate Request

Perform the Action Initiate the Response

Receive the Response

The default device address is 1, but can be configured to any desired address via xlogicSoft.

* Protocol developed by Modicon Inc., an American company

MODBUS Master Command

READ DATA

WRITE DATA

01 Read Coils 0x 1x

05 Write Single Coil

02 Read Discrete Input 0x

06 Write Single Register

03 Read Holding Registers 4x

15 Write Multiple Coils

04 Read Input Registers 3x

16 Write Multiple Registers

character encoding method for text that is used in computers and other communication devices). With special accessory – PRO-RS485 Cable, the universal port can serve as RS485 Port.

RS232 Cable

USB-Cable

RS-485 PRO Cable

17

Communication

RS485 Port - Serial COM1/COM2 RS485 ports are commonly used in multi unit systems and for longer distance communications.

All devices are connected in a bus structure (line). RS232 provides only point to point connection function while RS485 provides connection for multiple stations. Up to 32 stations (master or slaves) can be linked up in one segment. Half-duplex transmission system allowing transmission distances of up to 1.2 km.

RS485 is currently a widely used communication interface in data acquisition and control applications where multiple nodes communicate with each other.

Models PR-14 and PR-24 have a built-in RS485 Port with galvanic isolation. In addition to all models (except PR-12 series), you can connect an additional expansion module PR-RS485.

Serial COM Port Configuration

Universal Port - Serial COM0 Can work as RS232/USB

RS485 Port - Serial COM1 Except PR-12 Series

18

Communication

RS485 Built-in Port - Serial COM2 Only for PR-14 and PR-24 Series

19

Software

Easy programming – step by step

01 Configuration Hardware

Use xLogicSoft for online monitoring, program upload/download, controlling PLC stop, adjusting PLC real-time clock, modifying password protection, modifying communication port parameters. The software is intuitive and simplifies your work. You do not need any in-depth programming knowledge. xLogicSoft is the developing environment which supports several languages: English, French, Russian, German, Spanish, Chinese, Poland, Czech.

02 Drag & Drop Blocks

20

Software

Easy programming – step by step

03 configuration block settings

The programming software xLogicSoft allows easy and transparent programming of the MicroPLC with a PC. Up to 1024 (64 for PR-6 and PR-12 Economy; 512 for PR-12 and PR-14 Series) function blocks can be stored inside the program memory of the Micro PLC. Stored programs cannot be lost even during a power loss. Therefore back up batteries are not needed. With the simulation tool, the set up can be tested on the PC before commissioning. Control tasks can be solved easily with the function blocks available in the library (over 70 different instructions). Programming codes in a high-level program language are not required. Simply place the corresponding function blocks and link them with other function blocks according to the required control function.

04 Connection blocks with lines

05 Simulating

Download Now! Download the FREE xLogicSoft software and a number of complete programs for applications from our website – rievtech.com/download

21

Software Easy configuration – xLogicSoft

A A Rich Set of Functional Blocks With a whopping 100 different Function Blocks available, your ability to create programs is limited only by your imagination.

C

New application-specic functions such as pump switching, defrost, multicomparator, absolute humidity and others.

A

Quick debugging without a PLC Our sofware simulator, simulates a program in operation before you connect your PLC. During programming or the programming is completed, you can run PLC program in the simulation without online to check the program execution is correct or not. It can reduce on-site commissioning time greatly, reduce debugging difcult and improve debugging efciency.

B

B

22

Software

Easy configuration – xLogicSoft

C Program Comments When you transfer your program to the PLC, you can include any program comments too. With comment data, you can review programming codes for clarication and streamlined maintenance.

D

D Program upload and change protection User programs can be protected from unauthorized copying and changing by disabling program upload and change using xLogicSoft. These functions are helpful for users who manage original programs on a PC.

E

E Trend monitoring + Operation Log Real time monitoring without machine stoppage. Program and element on/off status can be monitored in real time. You can monitor the statuses of the devices assigned to built-in functions: I/O, timers, counters, status of blocks, frequency, analogue values, display messages, communication. The changing value of specic device can be monitored and saved as a le.

23

Software Easy configuration – xLogicSoft

En, Validation - This input enables a block function. When this input is “0”, other signalsto the block will be ignored. Trg - This input is used to trigger the start of a function Block Input Types R - Reset. The reset input R takes priority over all other inputs and resets the outputs. Set - A signal at input S sets the output to logical “1” Fre - Frequency signals to be evaluated are applied to this input. Forward - The input is used to control cam progress.

Special Blocks

Constant Blocks

Special Blocks

Special Blocks

Miscellaneous

Timers

Analog

Digital

Memory Write

On-Delay

Digital Input

Analog Watchdog

Analog Differential Trigger

Off-Delay

Cursor Key

Memory Read

Word to Bit

On-/Off-Delay

Shift Register Bit

Analog MUX

Retentivite On-Delay

Bit to Word

PI Controller

Status 0 (Low)

Wiping Relay (Pulse Output)

Device Reset

Analog Ramp

Status 1 (High)

Edge Triggered Wipining Relay

Comport Status

Digital Output

Analog Math

Value - The input, whose type is Integer. Reverse - The input is used to control backward CAM movement.

Asynchronous Pulse Generator

Application Blocks

Open Connector

Long Datas Math

Random Generator

CAM Control

Analog Math Error Detection

Modbus Addresses DI C DO M DF REG AI 1x 0-143 BIT R 256-259 BIT R 0-137 BIT R/W 256-1279 BIT R 1536-1791 BIT R/W 0~1023 LONG R/W 1024-1159 SHORT R 1x 0x 0x 0x 4x 4x

Digital Flag

Angular CAM Timer

Strairway Lighting Switch

Panel Key

Analog Filter

Pumps Management

Analog

Multiple Function Switch

Max/Min

Analog Input

Defrost

Weekly Timer

Average Value

AO AM AF HEG

4x

1280-1313 SHORT R/W

Analog Output

4x

1536-2559 SHORT R

Comparison of 2 Values

Miscellaneous

Yearly Timer

3072-3327 SHORT R/W

4x

4x

2560-3071 WORD R

Latching Relay

Analog Flag

Astronomical Clock

R - Only Read R/W - Read and Write

Multicompare

Pulse Relay

Basic Blocks

Compare in Zone

Stopwatch

Message Text

AND

Counters

Conversion Word Bits

Up/Down Counter

SoftKey

AND (Edge)

Conversion Bits Word

Hours Counter

Shift Register

NAND

Demultiplexer

Threshold Trigger

PWM

NAND (Edge)

Multiplexing

Analog

Modbus Read

OR

Multiplexer

Analog Comparator

Modbus Write

NOR

Square Root

Analog Threshold Trigger

RH Math

XOR

Sin/Cos

Analog Amplier

Data Latching Relay

NOT

Absolute Humidity

Long Data Latching Relay

Boolean Function

24

CPU

Product Specications

6 I/O Not Expandable

PR-6

Model : PR-6AC-R AC Model: PR-6DC-DA-R DC

Specications

Item

PR-6AC-R

PR-6DC-DA-R DC 12-24V DC 10.8-28.8V

Item

PR-6

Nominal voltage

AC 110V-240V AC 85 - 265V

Memory

64 Functional Blocks -

Operating limits The main frequency range Immunity from micro power Max startup current Isolation voltage Max absorbed power Protection against polarity inversions Input No

Data Retentivity Program Backup RTC

47-63Hz

-

10 years

Backup at 25 °C: 20 days, RTC accuracy : MAX ±2S/day 0.6ms - 8.0ms - TTL interface, 1 Program/RS232 port. Modbus RTU/ASCII only can serve as slaves

-

Typ 5 ms

Cycle time Expansion

- 1780V AC

Max 0.25A -

Communication

34 mA (85V AC) 26 mA (265V AC)

1.1 W (10.8V DC) 1.2W (28.8V DC)

Certicate

Yes

4 ( I1-I4 ) 4 ( I1-I4 )

Operation Temp Storage Temp Protection

-20 °C .. +55 °C -40 °C .. +70 °C IP20 48*90*64 (Unit, mm ) 2DIN 35mm-DIN rail or screw for installation Approx. 180g

Digital input Analogue input Input voltage Input signal 0 Input signal 1

- AC 110-240V AC 0-40V <0.03mA AC 79-240V >0.06mA

4 (I1-I4) (0..10V DC) DC 0-28.8V < 5V DC <0.1mA >8 V DC >0.3mA 0.4mA @ 10.8V DC 0.5mA @ 12.0 V DC 1.2mA @ 24 V DC 1.5mA @ 28.8 V DC

Dimensions Installation Weight

-

Input current

Item

PR-6AC-R

PR-6DC-DA-R

Output No

2 (Q1-Q2) Relay output Resistive load 10A/Inductive load 2A AC 250 V DC 110 V 1250VA 300W 105 Operations at Rated Resistive Load Against short-circuits: None Against overvoltages and overloads: None 107 Operations at No Load condition

Output type Continuous current Max breaking voltage Max allowable power force Electrical durability expectancy Mechanical life

0 to 1 : 120V AC : Typ. 50 ms 240V AC : Typ. 30 ms 1 to 0 : 120V AC : Typ. 90 ms 240V AC : Typ.100 ms

0 to 1 : Typ. 1.5 ms 1 to 0 : Typ. 1.5 ms

Response time

Maximum counting frequency

Typ : 4 Hz

Sensor type Input type Isolation between power supply and inputs Isolation between inputs Measurement range Input impedance Input voltage Resolution Accuracy at 25 °C Accuracy at 55 °C Protection against polarity inversions Isolation between analog inputs and power supply

Contact or 3-wire PNP

-

Resistive

-

Built-in protections

-

Response time

Operate Time : 15 ms max Release Time : 10 ms max 10Hz 2Hz

Yes

-

Mechanism

Resistor/light load

- - - - - -

DC 0-10V Min 24KΩ Max 72KΩ 28.8 V DC max 9bit 0.015V

0.5Hz

Sensitive load

± (Max 0.03)V ± (Max 0.06)V

-

10 m max shielded & twisted

Cable length

-

I/O circuit diagrams

[Relay Outputs]

[DC analog inputs 0-10V - Power DC ]

[Digital Input - Power AC]

[Digital Input - Power DC]

2k2/0.5W 10k max

( 1 )

(1)

+ -

O U T P U T 2 x R e l a y 1 0 A

Ca/Ta

+ -

1

1

2

2

Q1

Q2

L N I 1 I 2 I 3 I 4

(2)

(2)

L+ M I 1 I2 I3 I4

(1)

( 1 )

L/+

+ -

N/-

L+ M I 1 I2 I3 I4

I N P U T 4 x D C I 1~ I 4 ( 0~ 1 0 v D C )

D C 1 2~ 2 4 V

(1) - Fuse, circuit-breaker or circuit protector (2) - Inductive load;

CPU

Specification Product Specications

12 I/O Not Expandable

PR-12 Economy

PR-12

Model : PR-12AC-R-E

Model : PR-12AC-R AC Model: PR-12DC-DA-R DC Model: PR-12DC-DA-TN DC

AC

Model: PR-12DC-DA-R-E

DC

Specications

Item

PR-12AC-R-E

PR-12DC-DA-R-E

PR-12AC-R PR-12DC-DA-R PR-12DC-DA-TN

I/O circuit diagrams

Memory

64 Functional Blocks

512 Functional Blocks / 5K Steps

[Digital Input - Power AC]

-

10 years

Data Retentivity Program Backup RTC

10 years

( 1 )

Backup at 25 °C: 20 days, RTC accuracy : MAX ±2S/day 0.6ms - 8.0ms -

Cycle time Expansion

L N I 1 I 2 I 3 I 4 I 5 I 6 I 7 I 8

1 Program/RS232 port Modbus RTU/ASCII only can serve as slaves

1 Program/RS232 port Modbus RTU/ASCII Can work either as slave or as master in Modbus network.

Communication

Certicate

[Digital Input - Power DC]

(1)

Operation Temp Storage Temp Protection

-20 °C .. +55 °C -40 °C .. +70 °C IP20 72*90*61 (Unit, mm ) 4DIN 35mm-DIN rail or screw for installation Approx. 300g

+ -

Dimensions Installation Weight

L+ M I 1 I2 I3 I4

I 5 I6 I7 I8

Item

PR-12AC-R-E

PR-12AC-R

PR-12DC-DA-R-E

PR-12DC-DA-R DC 12-24V DC 10.8-28.8V

PR-12DC-DA-TN

[DC analog inputs 0-10V - Power DC ]

Nominal voltage

AC 110V-240V AC 85 - 265V

2k2/0.5W 10k max

Operating limits The main frequency range Immunity from micro power Max startup current Isolation voltage Max absorbed power Protection against polarity inversions Input No

Ca/Ta

+ -

47-63Hz

-

-

Typ 5 ms

( 1 )

+ -

- 1780V AC

Max 0.25A

Max 0.1A

-

38 mA (85V AC) 30 mA (265V AC)

48.5 mA (85V AC) 35 mA (265V AC)

3.2 W (10.8V DC) 3.8 W (28.8V DC)

3.5 W (10.8V DC) 4 W (28.8V DC)

2 W (10.8V DC) 2.3 W (28.8V DC)

L+ M I 1 I2 I3 I4 I5 I6 I7 I8

I N P U T 8 x D C I 1~ I 4 ( 0~ 1 0 v D C )

D C 1 2~ 2 4 V

Yes

8 (I1-I8) 8 (I1-I8)

[Relay Outputs]

Digital input Analogue input Input voltage Input signal 0 Input signal 1

- AC 110-240V AC 0-40V <0.03mA AC 79-240V >0.06mA

4 (I1-I4) (0..10V DC) DC 0-28.8V

O U T P U T 4 x R e l a y 1 0 A

(I1-I4) <0.1mA / (I5-I8) <1mA @ < 5V DC (I1-I4) >0.3mA / (I5-I8) >1.7mA @ > 8V DC (I1-I4) 0.4mA / (I5-I8) 2.3mA @ 10.8V DC (I1-I4) 0.5mA / (I5-I8) 2.6mA @ 12.0 V DC (I1-I4) 1.2mA / (I5-I8) 5.2mA @ 24 V DC (I1-I4) 1.5mA / (I5-I8) 6.3mA @ 28.8 V DC

1

1

1

1

2

2

2

2

Q1

Q2

Q4

Q3

(2)

(2)

(1)

L/+

-

Input current

N/-

0 to 1 : 120V AC : Typ. 50 ms 240V AC : Typ. 30 ms 1 to 0 : 120V AC : Typ. 90 ms 240V AC : Typ.100 ms

(I1-I4): 0 to 1 : Typ. 1.5 ms 1 to 0 : Typ. 1.5 ms (I5-I8): 0 to 1 : Typ. <1 ms 1 to 0 : Typ. <1 ms

[Transistor Outputs PNP ]

Response time

(1)

+

I1-I4 : 4 Hz I5-I8 : 60 kHz

-

Maximum counting frequency

Typ : 4 Hz

Sensor type Input type Isolation between power supply and inputs Isolation between inputs Measurement range Input impedance Input voltage Resolution Accuracy at 25 °C Accuracy at 55 °C Protection against polarity inversions Isolation between analog inputs and power supply

Contact or 3-wire PNP

L+

M I1 I2 I3 I4 I5 I6 I7 I8 I9

-

Resistive

DC 12~24V

-

-

Yes

-

Q1 M

Q2 M Q3 M Q4 M

- - - - - -

DC 0-10V Min 24KΩ Max 72KΩ 28.8 V DC max

0.3A

DC 5-30V +

9bit 0.015V ± (Max 0.03)V ± (Max 0.06)V

10bit 0.01V ± (Max 0.02)V ± (Max 0.04)V

-

(1) - Fuse, circuit-breaker or circuit protector (2) - Inductive load;

-

Cable length

-

10 m max shielded & twisted

CPU

Product Specications

Specications

Item

PR-12AC-R-E

PR-12DC-DA-R-E

PR-12AC-R

PR-12DC-DA-R

PR-12DC-DA-R-TN

Output No

4 (Q1-Q4)

Relay output

Output type Continuous current Max breaking voltage Max allowable power force Electrical durability expectancy Mechanical life Voltage drop Galvanic isolation Max breaking current

Transistor (PNP)

Resistive load 10A/Inductive load 2A

Max. 0.3 A per channel

AC 250 V DC 110 V

DC 5-30V

10A

0.65A

-

< 2 V for I = 0.3 A (at state 1)

-

Yes

1250VA 300W

-

-

105 Operations at Rated Resistive Load

-

107 Operations at No Load condition

Against short-circuits: None Against overvoltages and overloads: None

Built-in protections

Response time

Operate Time : 15 ms max. Release Time : 10 ms max.

Make ≤ 1 ms Release ≤ 1 ms

Mechanism

10Hz

-

2Hz

10Hz

Resistor/light load

0.5Hz

Sensitive load PWM frequency

- - -

10kHz < 0.5 % (20 % - 80 %) load at 10 mA < 0.5% (20 % - 80 %) load at 10 mA

PWM accuracy at 120Hz PWM accuracy at 500Hz Max. Breaking current PWM Max. cable length PWM PWM cyclic ratio

-

50mA

- -

20m 0 to 100 %

CPU

Specification Product Specications

14 I/O Expandable

PR-14

Model : PR-14AC-R AC Model: PR-14DC-DA-R DC

Specications

Item

PR-14AC-R

PR-14DC-DA-R DC 12-24V DC 10.8-28.8V

Item

PR-14

Nominal voltage

AC 110V-240V AC 85 - 265V

Memory

512 Functional Blocks / 5K Steps

10 years

Operating limits The main frequency range Immunity from micro power Max startup current Isolation voltage Max absorbed power Protection against polarity inversions Input No

Data Retentivity Program Backup RTC

47-63Hz

-

10 years

Backup at 25 °C: 20 days, RTC accuracy : MAX ±2S/day 0.6ms - 8.0ms 16 modules (PR-E-16) 1 RS232 port & 2 RS485 port (1 built-in) Modbus RTU/ASCII Master or Slave

-

Typ 5 ms

Cycle time Expansion

- 1780V AC

Max 0.25A - 3.5 W (10.8V DC) 4W (28.8V DC)

Communication

49 mA (85V AC) 37 mA (265V AC)

Certicate

Yes

10 (I1-IA) 10 (I1-IA)

Operation Temp Storage Temp Protection

-20 °C .. +55 °C -40 °C .. +70 °C IP20 95*90*55 (Unit, mm ) 6DIN 35mm-DIN rail or screw for installation Approx. 400g

Digital input Analogue input Input voltage Input signal 0 Input signal 1

- AC 110-240V AC 0-40V <0.03mA AC 79-240V >0.06mA

6 (I1-I6) (0..10V DC) DC 0-28.8V

Dimensions Installation Weight

(I1-I6) <0.1mA / (I7-IA) <1mA @ < 5V DC (I1-I6) >0.3mA / (I7-IA) >1.7mA @ > 8V DC (I1-I6) 0.4mA / (I7-IA) 2.3mA @ 10.8V DC (I1-I6) 0.5mA / (I7-IA) 2.6mA @ 12.0 V DC (I1-I6) 1.2mA / (I7-IA) 5.2mA @ 24 V DC (I1-I6) 1.5mA / (I7-IA) 6.3mA @ 28.8 V DC (I1-I6): 0 to 1 : Typ. 1.5 ms 1 to 0 : Typ. 1.5 ms (I7-IA): 0 to 1 : Typ. <1 ms 1 to 0 : Typ. <1 ms I1-I6 : 4 Hz I7-IA : 60 kHz

-

Input current

Item

PR-14AC-R

PR-14DC-DA-R

Output No

4 (Q1-Q4) Relay output Resistive load 10A/Inductive load 2A

Output type Continuous current Max breaking voltage Max allowable power force Electrical durability expectancy Mechanical life

0 to 1 : 120V AC : Typ. 50 ms 240V AC : Typ. 30 ms 1 to 0 : 120V AC : Typ. 90 ms 240V AC : Typ.100 ms

Response time

AC 250 V DC 110 V 1250VA 300W

Maximum counting frequency

Typ : 4 Hz

105 Operations at Rated Resistive Load

Sensor type Input type Isolation between power supply and inputs Isolation between inputs Measurement range Input impedance Input voltage Resolution Accuracy at 25 °C Accuracy at 55 °C Protection against polarity inversions Isolation between analog inputs and power supply

Contact or 3-wire PNP

-

Resistive

Against short-circuits: None Against overvoltages and overloads: None 107 Operations at No Load condition

-

Built-in protections

-

Operate Time : 15 ms max Release Time : 10 ms max 10Hz 2Hz

Response time

Yes

-

Mechanism

- - - - - -

DC 0-10V Min 24KΩ Max 72KΩ 28.8 V DC max 10bit 0.01V

Resistor/light load

Sensitive load

0.5Hz

± (Max 0.02)V ± (Max 0.04)V

-

Cable length

-

10 m max shielded & twisted

I/O circuit diagrams

[DC analog inputs 0-10V - Power DC ]

[Relay Outputs]

[RS485 Connection]

[Digital Input - Power AC]

( 1 )

2k2/0.5W 10k max

Built-in port RS485

Ca/Ta

+ -

A+ B-

A+ B- A+ B-

A+ B-

A+ B-

1

1

2

2

Q2

Q1

L N I 1 I 2 I 3 I 4

B- A+

B- A+

(2)

(2)

(1)

( 1 )

L/+

+ -

Cable length max 1200m Total 20 stantions

[Digital Input - Power DC]

N/-

(1)

L+ M I 1 I2 I3 I4

+ -

L+ M I 1 I2 I3 I4

(1) - Fuse, circuit-breaker or circuit protector (2) - Inductive load;

Page 1 Page 2 Page 3 Page 4 Page 5 Page 6 Page 7 Page 8 Page 9 Page 10 Page 11 Page 12 Page 13 Page 14 Page 15 Page 16 Page 17 Page 18 Page 19 Page 20 Page 21 Page 22 Page 23 Page 24 Page 25 Page 26 Page 27 Page 28 Page 29 Page 30 Page 31 Page 32 Page 33 Page 34 Page 35 Page 36 Page 37 Page 38-39 Page 40-41 Page 42-43 Page 44-45

www.zonaindustrial.cl

Made with FlippingBook - Online magazine maker