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Control-measuring automation

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Protocol analyzer with PTR-xxx module

The protocol analyzer is a program which cooperates with the PTR-030 device. The software decodes frames of the following protocols: SYNDIS, DNP 3.0, MODBUS RTU, MODBUS Ascii, IEC 870-5-101, IEC 870-5-103, IEC 870-5-104, SPA.

Such a set enables to:

  • monitor and detect errors
  • record and analyze data transmitted in various standards and transmission media, such as: RS-232, RS-485 or fiber-optic connections
  • test transmission protocols

Analyzed data is displayed on the screen and saved to a computer disk.

The hardware interface of the analyzer is equipped with a DB-25 connector, to which a monitored transmission channel is connected. The device is also available in the version with connectors for plastic or glass fiber-optics. The monitored transmission may be performed in both directions (Tx and Rx) simultaneously, either in the half-duplex or full-duplex mode, with the speed up to 115 kb/s. The device is connected to a computer using the USB connector and does not require external power supply.

Recorded data is displayed systematically on the screen in the hexadecimal form or as ASCII signs and saved to a file on a computer disk.

Przykładowe urządzenie PTR-030

Each data frame is marked with time of resolution up to 1ms. Data may be filtered and searched taking into consideration contents of specific frames. Recorded data may be recalculated using the implemented calculator. 

DCM-100 (distributed control modules)

The DCM-100 devices contribute to building a monitoring and controlling system of binary inputs and outputs for application in monitoring and controlling building automation of access-protection and fire-protection devices and others. The structure of the system enables to connect subsequent modules easily, increasing the functionality of the entire installation. The hardware resources enables to operate in communication networks based on Ethernet and RS-232 and RS-485 serial connections. If it is needed, it is possible to extend the communication abilities with other interfaces. The modules have casings compatible with DIN-rail mounting.

Functionalities of the DMC-100 modules is applied as a component of smart building.
More information jump to "Devices > Control-measuring automation".

The modules are visible in a network as slave-type devices and they perform tasks ordered by a supervising, master-type controller. The modules are mediating devices between front-ends and execution devices.

Connection diagram of devices in the system

ISO-003-GIS (partial discharge measuring transducerunit)

ISO-003-GIS is a partial discharge measuring transducer. The transducer is one of the elements of the PD monitoring system in gas-insulated switchgears (GIS). It receives radio waves generated by partial discharges occurring inside the switchgear. The active element is a suitably shielded antenna placed in ISO-003-GIS. The signal is subjected to amplification and band frequency filtering in the range of 300÷1400MHz. The amplified and filtered signal is fed to the peak detector and then to the internal A/D converter. Samples from all data converters are sent to the MPD-002 external data concentrator via fiber optic channels. Data aggregations are time-stamped. Time synchronization is carried out using the IEE1588 PTP protocol.

The device is equipped with an SFP socket with an insert for cooperation with multimode optical fiber with LC type plugs.

The ISO-003-GIS transmitter is installed in factory-made dielectric windows located on the surface of insulating barriers. These barriers are structural elements of switchgears, installed between individual GIS sections.   []

Exemplary ISO-003-GIS

ISO-003-GIS-REF (reference voltage source for PD measurements)

The ISO-003-GIS-REF is a reference voltage source that is one of the elements of the partial discharge (PD) monitoring system. The reference voltage source is used to identify the instantaneous phase angle present in the switchgear voltage. In full seconds of real time, the device measures the voltage and phase angle coming from the voltage transducers. The measured phase is sent via a fiber optic link to the MPD-002 data concentrator. Time synchronization is carried out using the IEE1588 PTP protocol.

Device configuration is done using the pConfig program.

The maximum measured voltage on each input is 230V AC. The device is designed to be mounted on a DIN 35mm rail.   []

Exemplary ISO-003-GIS-REF

MEM-001 (multi energy measurement unit)

MEM-001 is a module of power network parameters, the main purpose of which is to use it in low-voltage power switchboards. The device measures three phase voltages and up to twenty-four currents in eight three-phase receiving lines. MEM-001 is powered with 230/400V three-phase voltage, but it also works with phase voltage. The supply voltage is also the measuring voltage. Current measurement is carried out using Rogowski coils. MEM-001 cooperates with
CR-200 sensors, creating three-phase sets of Rogowski coils. Up to eight sets of CR-200 sensors can be connected to the device.

Based on the measurements made, the parameters of the power grid are calculated in real time, such as active power, reactive power, current harmonic distortion factor THDi, voltage THDu and many others. Measurements and calculated network parameters are stored in the device's memory or can be sent to the master system using the MODBUS-RTU protocol using the RS-485 interface.

The MEM-001 can be mounted on a 35 mm DIN rail and is designed for operation in difficult environmental conditions of substations, power switchboards and industrial installations.

Exemplary MEM-001

The following power grid parameters are calculated:

  • RMS phase currents and IN0 RMS current (imbalance in the neutral conductor)
  • RMS phase voltages
  • active, reactive and apparent phase powers
  • arithmetic sum powers
  • vector sum powers
  • power factors and phase angles
  • kth voltage harmonic content factor (k=2÷32)
  • voltage harmonic distortion (THD)
  • k-th harmonic content factor of the current (k=2÷32)
  • current harmonic distortion factor (THDi)
  • active and reactive powers in individual k-harmonics

For current measurements, the CR-200 sensor, built of three integrated Rogowski coils, should be used. The flexible Rogowski coil has been successfully used to measure currents in cases where a traditional current transducer is not suitable. An exemplary connection method is shown below.   []

Exemplary MEM-001 device with two sets of CR-200 sensors
Exemplary MEM-001 device with two sets of CR-200 sensors

MPD-002 (PD data processing module)

MPD-002 is the data concentrator of the SYNDIS WNZ-GIS system. The concentrator cooperates with partial discharge measuring transducers of the ISO-00x-xxx type. In addition to supervising the operation of partial discharge transducers, it aggregates data streams containing information about detected partial discharges. The device performs all the functions related to the collection, processing and exchange of data between the transducers and the master system server, such as SYNDIS WNZ-GIS.

The MPD-002 data concentrator has a modular structure and consists of the following elements:

  • processor module - with ETH transmission channels in the form of SFP inserts to the monitoring server
  • ETH transmission module - containing up to 10 Ethernet 1000Base-FX channels in the form of SFP inserts (the concentrator can contain up to four transmission modules), for data transmission from measuring transducers
  • power supply module 230/220V AC/DC

Optical fiber transmission between the MPD-002 concentrator and measuring devices effectively reduces the impact of station interference on PD measurement data. The received signals are properly processed, grouped and sent to the server using the DNP 3.0 protocol. Changes in the state of the monitored object are monitored and the amplitude-phase distributions of the registered PDs are generated, the so-called PRPD (Phase Resolved Partial Discharge) distributions.

The modules are first installed in the RTU/BCU hardware structure and then configured using the pConfig software.   []

PNS-003 (direct voltage converter)

The PNS-003 device is used to convert direct voltage into alternating voltage. The purpose of the device is to enable measurements of direct voltages using systems adapted to alternating voltages in automation systems.

The casing enables installation on a DIN 35 mm rail.

Exemplary PNS-003

PPI-003 (measuring converter)

The PPI-003 converter is used to cooperate with measuring devices and analog value converters, having on their outputs a current signal from the ranges 4÷20mA, 0÷20mA or voltage signal from the ranges ±5V, ±10V. The device is able to measure up to 8 input analog signals and results of measurements are sent to a superior device.

The casing enables installation on a DIN 35 mm rail.

Exemplary PPI-003

PPI-1xx (input signal and control module)

The PPI-1xx input signal and control module is used to read 8 binary galvanically separated inputs and to control 4 relay outputs. Each change of an input or output is recorded in a cyclical buffer which enables to store 1024 events together with date and time of their occurrence. The buffer records also device clock synchronization and device restarts (both after power supply outages and forced by a MODBUS bus).

The casing enables installation on a DIN 35 mm rail.

Exemplary PPI-101

RTB-102 (telemetric recorder)

The RTB-102 telemetric recorder is designed for remote supervision of objects. It performs measurements, checks states of sensors, records and sends data essential to assess functioning of water, heat and radio networks.

It enables remote reading of water meters, sensors of temperature and pressure, opening sensors. It may also cooperate with specialized sensors and meters, e.g. chlorine or oxygen content sensors, tranmissometers, etc.

The device does not require external power supply. Internal batteries enable operation for up to 5 years. If there is power supply available on an object, the device may be connected to it.

The device is equipped with a tight IP67-class casing, what enables operation in humid locations. The casing enables also on-board installation.

Exemplary RTB-102

The recorder is equipped with 8 binary inputs which are hardware configured by the user. The enable supervising contact sensors (without own power supply) and voltage sensors (with own power supply). Four analog current-type inputs enable measuring currents from the ranges 4÷20mA or 0÷20mA. Recording and measuring cycles are configurable and scaling available for the user enable to perform measurements of physical quantities in direct units.

The built-in specialized GSM/GPRS modem enables to send data over the radio route. The device connects cyclically according to a defined schedule. It may also send text messages.

SCB-001 (can-bus controller, boiler controlling)

The SCB-001 controller is a microprocessor data concentrator with extended calculation capacity, which realizes data collecting and controls in vast systems of industry automation. A typical application of this device is in heating systems. The SCB-001 version is designed for controlling a power boiler. The controller integrates all IED devices involved in realization of controlling into one vast system. The device provides the following interfaces:

  • 1x RS-232 (dispatching-service console)
  • 1x RS-485 terminal RSB (LCD screen bus)
  • 1x Ethernet (RJ-45)
  • 1x modem (connection of a telephone line)
  • 3x CANBUS (CAN1, CAN2, CAN3)
  • 3x RS485 (connectors for object interfaces)
Exemplary SCB-001

All connectors are available from the front of the device what enables easy installation of wires and start-up works. The casing of the controller is compatible with DIN rail installation.

The controller enables cooperation with other devices, for example:

  • dispatching terminals, e.g. TZ-021
  • LCD touch screens, e.g. KWG-002
  • measurement converters, e.g. PPI-003 (4÷20mA)
  • external regulators
  • communication controllers and data concentrators

The casing enables installation on a DIN 35 mm rail.

SO-52v21-KSO (dewatering system controller)

The dehydration system controller was built based on the SO-52v21 family of modules. It is designed to monitor and supervise the operation of pumping installations and to collect data on the amount of water being pumped and its physicochemical state. There are two versions of the device "automation" and "monitoring".

In the "automation" version, the controller controls the operation of the deep-sea pumping automat, operating in the well, and performs continuous monitoring and diagnostics of work correctness. Thanks to the "online" analysis, the device signals the occurrence of unfavorable conditions, caused by initial mechanical damage in the pump or engine, or seizure of the rotors in the environment of contaminated water. For this purpose, temperature, pressure and chloride content are measured on an ongoing basis.

In installations where pump control is not required, the controller in the "monitoring" version is installed. It performs the functions of monitoring the depth of the water surface, its flow and the physicochemical condition.

Equipment of the SO-52v21-KSO controller in the "automation" version:

  • mCU-02-05 - central unit
  • mBI-42-03 - 16x binary inputs
  • mBO-27-02 - 8x control outputs
  • 2x mAI-21-02 - 16x measuring inputs 4 ÷ 20mA
  • mAI-01-81 - 1x temperature measurement input, 1x conductance measurement input
  • mPS-16-01 - power supply

Equipment of the SO-52v21-KSO controller in the "monitoring" version:

  • mCU-02-05 - central unit
  • mBI-42-03 - 16x binary inputs
  • 2x mAI-21-02 - 16x measuring inputs 4 ÷ 20mA
  • mPS-16-01 - power supply

The measurement inputs in the mAI-21-02 module are provided with signals from pressure sensors, piezometers, throttle position sensors and analog flow sensors. The communication resources of the SO-52v21-KSO controller are: 2x RS-485, 2x RS-232, GSM 3G modem, Eth 100Base-TX, 1-Wire interface and RS-232 service interface.  []

SO-5403v1 (control-measuring device)

The SO-5403v1 control-measuring device is used to realize measurements, collect information from binary inputs and execute controls of a power device or an entire object. The SO-5403v1 controller may be applied as a component of any distributed telemetry system. It may operate supervised by SYNDIS software or any other SCADA-type program. Due to applied solutions, it perfectly fits the power environment and industry installations.

From the object side the SO-5403v1 device is equipped with the following types of inputs and outputs:

  • 8x WE-BIN – galvanically separated voltage binary inputs
  • 5x WY-ST – relay control outputs for remote controls of object relays
  • 4x WE-U – galvanically separated voltage analog inputs
  • 4x WE-I – galvanically separated current analog inputs

The SO-5403v1 device is equipped with the following communication interfaces:

  • RS-485 for communication with a superior system
  • multimode fiber-optic channel with glass fiber 62,5/125 µm, 50/125 µm or with plastic fiber POF 1 mm – for object communication
  • RS-232 for configuring and servicing the device by the user and for diagnostic purposes. It may be also used for communication with a supervising system
Exemplary  SO-5403v1

The device is equipped with an LCD screen and a 4-button keyboard. It enables to view configuration parameters and device registers without the necessity to connect to the device with the use of the service program. It is also possible to check states of signaling binary inputs and control outputs, analog measurements and transmission state.

SO-5403v2 (control-measuring device)

The SO-5403v2 control-measuring device is used to realize measurements, collect information from binary inputs and execute controls of a power device or an entire object. The SO-5403v2 controller may be applied as a component of any distributed telemetry system. It may operate supervised by SYNDIS software or any other SCADA-type program. Due to applied solutions, it perfectly fits the power environment and industry installations.

From the object side the SO-5403v2 device is equipped with the following types of inputs and outputs:

  • 16x WE-BIN – galvanically separated voltage binary inputs
  • 4x WY-ST OPTO-MOS type – for remote controlling of object relays
  • 5x WE-U – galvanically separated voltage analog inputs
  • 3x WE-I – galvanically separated current analog inputs
  • 3x WE-U – (addition) galvanically separated voltage analog inputs
  • 3x WY-A – (addition) galvanically separated analog inputs
  • 1x Ethernet – (addition) in the 100Base-TX or 100Base-FX standard for communication with a supervising system in the MODBUS or DNP 3.0 protocol

The SO-5403v2 is equipped with the following communication protocols:

  • 2x RS-485 channel – for communication with a superior system
  • multimode fiber-optic channel with glass fiber 62,5/125 µm, 50/125 µm or with plastic fiber POF 1 mm – for object communication
  • RS-232 channel – for configuring and servicing the device by the user and for diagnostic purposes
Exemplary SO-5403v2

The device has a specialized casing adapted for installation on a DIN rail.

On Client’s demand, it is possible to configure the device in compliance with the available product selection key. For more detailed information, please contact MIKRONIKA. 

SO-5403v2-1 (control-measuring device)

The SO-5403v2-1 control-measuring device is used to realize measurements, collect information from binary inputs and execute controls of a power device or an entire object. The SO-5403v2-1 controller may be applied as a component of any distributed telemetry system. It may operate supervised by SYNDIS software or any other SCADA-type program. Due to applied solutions, it perfectly fits the power environment and industry installations.

SO-5403-v2-1 comprises the following modules: processor, input/output, measurements, communication and power supply.

From the object side the SO-5403v2-1 is equipped with the following types of interfaces:

  • 16x WE-BIN – galvanically separated voltage binary inputs
  • 5x WY-ST OPTO-MOS type – for remote controlling of object relays
  • 5x WE-U – galvanically separated voltage analog inputs
  • 3x WE-I – galvanically separated current analog inputs
  • 3x WE-U – (addition) galvanically separated voltage analog inputs
  • 3x WY-A – (addition) galvanically separated analog inputs

The SO-5403v2-1 is equipped with the following communication channel:

  • RS-485 (channel 1) - for communication with a superior system
  • RS-485 (channel 2) - for communication with a superior system
  • multimode fiber-optic channel with glass fiber 62,5/125 µm, 50/125 µm or with plastic fiber POF 1 mm – for communication with a superior system
  • RS-232 - for configuring and servicing the device by the user and for diagnostic purposes
  • Ethernet (addition) – in the 100Base-TX or 100Base-FX standard for communication with a superior system
  • zigBee (addition) – radio connection
Exemplary SO-5403v2-1

The device is also equipped with a casing made of the MP02 profile and is compatible with DIN 35 mm installation rail.

On Client’s demand, it is possible to configure the device in compliance with the available product selection key. For more detailed information, please contact MIKRONIKA. 

SO-5404v1-SN (disconnector drive controller)

The SO-5401v1-SN controller is used for cooperation with a disconnector drive. It is equipped with the following interfaces:

  • 1x Ethernet adapter for cooperation with a fiber-optic multi-mode cable with LC connectors. This interface is used for cooperation with a supervising system.
  • 1x RS-232 for configuration and servicing the device by the user and for diagnostic purposes

The device is equipped with the following inputs and outputs:

  • 6x control outputs divided into two groups (2 and 4 outputs)
  • 16x binary inputs in two groups, each with 8 inputs, each group has a common reference potential.

Both groups are galvanically separated between themselves.

Exemplary SO-5404v1-SN

UNW-001 (device for water level measurement)

UNW-001 is used to measure water level in piezometric wells, operating in e.g. dewatering systems in mines or revegetated areas after oil-related pollution, water intakes and others.

UNW-001 is a specialized microprocessor meter, supplied by a set of lithium batteries. It may be also supplied by an external 12÷24V power supply unit.

The device realizes water level measurements with the piezometric method. The implemented support unit enables to read data from 4 independent sensors. These measurements are sent to a supervising center using the GSM/GPRS connection by an internal modem. The algorithm of measurements and data sending is supported by a processor. In order to limit energy consumption, the device is in the standby mode most of the time. Then, it consumes less than 50 µAh. After waking up, it performs a measurement and sends data. Then, it switches to the standby state. The battery discharge state is monitored and sent to the supervising center during connection sessions. The implemented algorithm enables to perform at least 8000 connections to a GSM network and simultaneous realization of water level measurements.

The device is also able to support binary signals from anti-theft circuits. A state change of such a circuit results in waking the device up immediately and sending a notification about unauthorized access.

The device is available in two protection classes: IP65 and IP67.

Exemplary UNW-001 device in a plastic housing

USD2-02 (control diagnostic device)

The USD2-02 control-diagnostic device is designed to be applied in widely understood automation systems. It has both inputs and outputs (binary and analog) as well as communication interfaces. Such a configuration makes the USD2-02 device a multi-purpose unit.

From the object side, the USD2-02 device is equipped with the following connectors:

  • 8x WE-BI – galvanically separated voltage binary inputs (for recording states of object binary signals)
  • 5x WY-ST – relay outputs controlling e.g. pump aggregate operation and gate valve open range to define the volume of flow
  • 7x WE-A – galvanically separated current analog inputs
  • 3x WE-U – voltage analog inputs with doubled galvanic separation
  • 2x WY-A – current analog outputs

The USD2-02 controller is equipped with the following interfaces:

  • RS-485 – for communication with a supervising system, with the application of the MODBUS protocol
  • RS-232 – for servicing the device and diagnostic purposes
  • RS-485 or CAN (addition) – for object communication
  • multimode fiber-optic channel (addition) with glass fiber 62,5/125 µm, 50/125 µm or with plastic fiber POF 1 mm – for object communication
  • Ethernet (addition) – fiber-optic channel for communication with a supervising system or user
  • modem GSM/GPRS (addition) – for SMS communication or sending data with the use of an APN
Exemplary USD2-02 device

The USD2-02 device is also equipped with an LCD screen and a 4-button keyboard. These components enable to preview configuration parameters and device registers without the necessity to connect a service program. It is also possible to check states of binary signaling inputs, control outputs and transmission states. Thanks to the keyboard and screen, it is possible to control manually devices connected to the controller.

USD3-01 (control diagnostic device)

Not recommended to apply in new solutions

 working in a water well. It enables immediate signalization of incorrect states of aggregate operation indicating e.g. a mechanical damage in a pump or engine or detecting an initial state indicating e.g. seizuring of a rotor caused by dirty water.

From the object side, the USD3-01 device is equipped with the following connectors:

  • 8x WE-BIN – galvanically separated voltage binary inputs (for recording states of object binary signals)
  • 5x WY-ST – relay outputs controlling e.g. pump aggregate operation and gate valve open range to define the volume of flow
  • 7x WE-A – galvanically separated current analog inputs (with passed supplying voltage for connecting external sensors)
  • 3x WE-U – voltage analog inputs with doubled galvanic separation (used to measure pump supplying voltage)
  • 1x WE-DG – galvanically separated analog input (to connect a current transducer)

The USD3-01 controller is equipped with the following interfaces:

  • RS-485 (channel 1) – for communication with a supervising system, with the application of the MODBUS protocol
  • RS-485 (channel 2) – for communication with an electromagnetic flow meter
  • RS-232 – for local configuring and servicing the device and diagnostic purposes. It is also possible to apply this interface for communication with a supervising system with the MODBUS protocol
  • RS-485 or CAN (addition) – for object communication
  • multimode fiber-optic channel (addition) with glass fiber 62,5/125 µm, 50/125 µm or with plastic fiber POF 1 mm – for object communication
  • Ethernet (addition) – fiber-optic channel for communication with a supervising system or user
  • modem GSM/GPRS (addition) – for SMS communication or sending data with the use of an APN

The USD3-01 device is also equipped with an LCD screen and a 4-button keyboard. These components enable to preview configuration parameters and device registers without the necessity to connect a service program. It is also possible to check states of binary signaling inputs, control outputs and transmission states. Thanks to the keyboard and screen, it is possible to control manually devices connected to the controller.

USP-001-PZ (tap changer controller)

Our diagnostic devices are installed in sub-load TC drive cubicles or in transformer cabicles. A more detailed description of the device is in the
"Devices > Monitoring > Primary devices in power substations".

USP-00x (control-measuring device, measuring converter)

Not recommended apply in new solutions

The USP-00x control-measuring device is used to realize measurements, collect information from binary inputs and execute controls within an object or power device monitoring and support. The USP-00x device may be applied as a component of any distributed telemetry system. It may operate supervised by SYNDIS software or any other SCADA-type program. The device meets requirements for operating in a power environment and industry installations.

The USP-00x controller may cooperate with devices connected in the star/triangle array. Power measurements may be executed in phases, inter-phases or in the Aron’s array. The device is equipped with a casing for on-table installation.

The USP-00x device has the following object inputs/outputs:

  • 8x WE-BIN – galvanically separated voltage binary inputs
  • 5x WY-ST – relay control outputs
  • 4x WE-U – galvanically separated voltage analog inputs
  • 4x WE-I – galvanically separated current analog inputs
  • 2x WY-A – galvanically separated analog inputs with four ranges available

The USP-00x device realizes transmission in the following channels:

  • RS-485 – for communication with a superior system
  • RS-485*) – for communication with a superior system
  • multimode fiber-optic channel *) with glass fiber 62,5/125 µm, 50/125 µm or with plastic fiber POF 1 mm (the TR-OPTO connector), for communication with a superior system
  • RS-232 for service purposes – local configuration and service by the user, may be also applied for communication with a supervising system, using the MODBUS protocol. The manufacturer has devoted this channel for diagnostic purposes.

*) the RS-485 channel and the fiber-optic multi-mode channel are supported by the same communication port of the microcontroller; therefore they cannot cooperate with a supervising system simultaneously.

Exemplary USP-001

It is possible to equip the device with additional transmission channels according to the requirements of a given application.

  • RS-485 or CAN – for object communication
  • fiber-optic Ethernet – for communication with a supervising system or another user
  • GSM/GPRS modem – for SMS communication or sending data in GSM or GPRS with the use of an APN

USP-102/106 (control measuring device)

The USP-102 and USP-106 control and measurement devices are used to measure the collection of binary input states and to perform controls as part of the facility or electrical equipment maintenance. USP-102 and USP-106 can be components of any distributed telemetry system. They can cooperate with the SYNDIS system or any other SCADA class software. The devices meet the standards for work in the power engineering environment and other industrial installations. The housing is designed for mounting on a 35 mm DIN rail.

Each device includes a processor and power module as well as I / O, measurement and communication modules (USP-106 only).

The USP-102 and USP-106 devices have the following types of field connectors:

  • 16x IN - galvanically separated two-state voltage inputs
  • 4x OUT - OPTO-MOS control outputs for remote control of object relays
  • 4x IN-U - galvanically separated voltage analog inputs
  • 3x IN-I - galvanically separated current analog inputs

Additionally, the USP-102/106 device can be equipped with the following connectors:

  • 3x IN-U - galvanically separated voltage analog inputs and 2 galvanically separated low-current analog inputs
  • 3x OUT-A - galvanically separated analog outputs with five ranges to choose from

USP-102 and USP-106 carry out transmission in the following channels:

  • RS-485 (channel 1) - for communication with a supervisory system
  • RS-485 (channel 2) - for communication with a supervisory system
  • RS-232 for service purposes - local configuration and servicing by the user, it can also be used for communication with a supervisory system, using the MODBUS protocol. The manufacturer has designated this channel for diagnostic purposes.
Exemplary USP-106

It is possible to equip the device with additional transmission channels, depending on the needs of a specific application.

  • Multimode fiber optic with glass fiber 62.5 / 125 µm, 50/125 µm or with 1mm POF plastic fiber, for communication with a supervisory system
  • zigBee - radio link

Additionally, the USP-106 can have the following channels:

  • Ethernet in the TP100 or FO100 standard for communication with a supervisory system
  • GSM / GPRS modem for communication with the supervisory system via GPRS using APN. The modem can support one or two SIM cards  []

USP-103 (control-measuring device)

Device details can be found in Devices> Substation automation> Measuring transducers   []

USP-104 (control-measuring device)

The USP-104 control and measurement device is used to collect the states of binary inputs and to perform controls as part of the service of an industrial facility or power device. USP-104 can be part of any distributed telemetry system. It can work with the SYNDIS system or any other SCADA class software.

The device meets the standards of operation both in the power engineering environment and in other industrial installations. Each device consists of a basic processor and power module, an I / O module, and a communication module. The device marked as USP-104R has the option of adding an expansion module, which allows for the implementation of dedicated tasks in accordance with the customer's specifications. The housing is designed for mounting on a 35 mm DIN rail.

The USP-104 device has the following types of field connectors:
  • 16x WE - galvanically separated binary voltage inputs
  • 2x OUT - control outputs for remote control of object relays
  • 1x 1-Wire - galvanically separated bus for connecting temperature sensors or other devices with a 1-Wire interface
  • 3x WY-A (addition) - galvanically separated analog outputs

USP-104 carries out transmission in the following channels:

  • RS-485 (channel 1) - for communication with a supervisory system
  • RS-485 (channel 2) - for communication with a supervisory system
  • RS-232 for service purposes - local configuration and servicing by the user, it can also be used for communication with a supervisory system. The manufacturer has designated this channel also for diagnostic purposes.
  • Ethernet - in the TP100 or FO100 standard, for communication with a supervisory system
  • GSM / GPRS modem - for communication with the supervisory system via GPRS using APN
Exemplary USP-104R

It is possible to equip the device with additional transmission channels, depending on the needs of a specific application.

  • Multimode fiber optic channel with fiberglass 62.5 / 125 µm, 50/125 µm or with 1mm POF plastic fiber - for communication with a supervisory system
  • zigBee - radio link  []

USP-114 (measuring-communication device)

Not recommended  for apply in new solutions
The USP-114 control and measurement device is used to collect the states of binary inputs, measurements of analog inputs and to perform controls as part of the service of an industrial facility or power device. USP-114 can be part of any distributed telemetry system. It can work with the SYNDIS system or any other SCADA class software. The device meets the standards of operation both in the power engineering environment and in other industrial installations.

USP-114 is equipped with the following modules:

  • USPW-004 (16 binary voltage inputs / 6 control outputs)
  • USPA-011 (8 analog current inputs)
  • STR-205 (CPU / Communication)
  • MZB-003 (power supply)
  • CNSC-011 / CNSC-012 *) (serial transmission)
    *) CNSC-011 and CNSC-012 modules are placed interchangeably, depending on the customer's request, after prior arrangement with MIKRONIKA.

USP-114 has the following transmission channels:

  • RS-485 (channel 1) - for communication with a supervisory system, channel located in the STR-205 module
  • RS-485 (channel 2) - for communication with a supervisory system, channel located in the STR-205 module
  • RS-232 - for communication with field devices, channel located in CNSC-011 and CNSC-012 modules
  • RS-485 (channel 3) - for communication with field devices, channel located in CNSC-011 and CNSC-012 modules
  • Ethernet - in the TP100 standard for communication with a supervisory system; the channel is in STR-205 and CNSC-012 modules
  • GSM / GPRS modem - for communication with the supervisory system via GPRS using APN
  • RS-232 for service purposes - local configuration and servicing by the user, it can also be used for communication with a supervisory system. The channel is in STR-205, CNSC-011 and CNSC-012 modules. The manufacturer has designated this channel also for diagnostic purposes.

The device has a housing adapted to be mounted on a 35 mm DIN rail or on a panel.   []

Exemplary USP-114 z CNSC-012

USP-115-RMB (reactive power regulator)

The USP-115-RMB Reactive Power Controller is designed to regulate the reactive power compensation in the power system by controlling the compensation batteries. Control can be performed locally or remotely. The regulator can operate autonomously or be part of a distributed telemechanics system. The USP-115-RMB can operate under the supervision of the SYNDIS system or any other SCADA class software.

The USP-115-RMB regulator consists of the following modules:

  • STR-205 (CPU and Communication)
  • USPW-014 (16 binary voltage inputs / 6 control relay outputs)
  • USPA-113 (5 analog voltage inputs up to 100V / 3 current analog inputs from 5A)
  • MZB-013 (power supply)

USP-115-RMB has the following transmission channels:

  • RS-485 (channel 1) - for communication with a supervisory system or other devices; channel located in the STR-205 module
  • RS-485 (channel 2) - for communication with a supervisory system or other devices; a channel located in the STR-205 omdule
  • Ethernet - in the TP100 standard for communication with a supervisory system; the channel is in STR-205
  • GSM / GPRS modem for communication with the supervisory system via GPRS using APN
  • RS-232 for service purposes - local configuration and service by the user. The channel is in the STR-205 module.
Exemplary USP-115-RMB device (right view from the terminal side)

As standard, the Reactive Power Regulator is equipped with a display and a keyboard that form the local terminal. The terminal is used to view the measurement results, the status of inputs and outputs, and to change the operating mode. The device is mounted in an aluminum housing adapted for flush mounting.  []

USP-116-AMS (control-measuring device, energy recorder)

The USP-116-AMS device is used to collect data necessary to supervise the power and electricity economy. It is possible to count pulses from up to 64 impulse electricity meters, from energy meters with impulse adapters and from any summation and calculation devices. The basic version of the device includes 16 pulse inputs. The sum of pulses from each line can be periodically or continuously sent through the transmission channel to RTU (Remote Terminal Unit) devices and to energy management systems (SYNDIS Energia). The counted pulses are saved in the non-volatile memory. The saved files can be accessed locally, through links to a local data concentrator, or remotely through modem links or through telemechanics links. The basic version of the recorder remembers files from the last 40 days.

The standard equipment of the USP-116-AMS is:

  • STR-205 (CPU / Communication Module)
  • USPW-024 *) (binary input / output module)
  • CNSC-011 / CNSC-012 *) (serial transmission module)
  • MZB-013 (power supply module)

*) the choice of the CNSC-011 or 012 module and the installation of an additional USPW module depend on the individual requirements of the customer

The device has a housing made of MP02 profile and is adapted for mounting on a 35 mm DIN rail or for surface mounting.

As standard, the USP-116-AMS does not have a local display and a keyboard, and communication with the device takes place via a serial link and a computer with installed diagnostic software. However, they can optionally be equipped with an LCD display and a 4-button keypad, thus creating a local terminal. The user can then view the configuration parameters and device registers without the need to connect the service program.  []

Exemplary USP-116-AMS

USP-117 (control-measuring device)

The USP-117 control and measurement device is used to collect the states of binary inputs, measurements of analog inputs and to perform controls as part of servicing electric power or industrial facilities. The device can operate autonomously or be part of a distributed telemechanics system. The USP-117 can operate under the supervision of the SYNDIS system or any other SCADA class software.

The USP-117 regulator consists of the following modules:
  • STR-206 (CPU / Communication)
  • USPW-014 (16 binary voltage inputs / 6 control relay outputs)
  • USPW-034 (16 binary voltage inputs)
  • USPA-112 (5 analog voltage inputs up to 230V / 3 analog current inputs from 5A)
  • MZB-001 (power supply)

USP-117 has the following transmission channels:

  • RS-485 (channel 1) - for communication with a supervisory system; channel placed in the module in STR-206
  • RS-485 (channel 2) - for communication with a supervisory system; channel located in the STR-206 module
  • Ethernet - in the TP100 standard for communication with a supervisory system; the channel is in the STR-206 module
  • Multimode fiber optic channel 62.5 / 125 µm - for communication with a supervisory system; the channel is located in STR-206
  • RS-232 for service purposes - local configuration and service by the user. The channel is in the STR-206 module. The manufacturer has allocated this channel also for its own diagnostic purposes.
Exemplary USP-117

The device is mounted in an aluminum housing, adapted for surface mounting. As a standard, the USP-117 device is manufactured without a display and keyboard, and its configuration and status checking is performed using a serial link and a computer with appropriate software installed. At the customer's request, the device can be manufactured with an LCD display and a 4-button keyboard, which constitute a local terminal, which can be used to check the status of binary inputs, measurements and transmission states. It is also possible to make the controls manually.  []

USP-119 (measuring-communication device)

The USP-119 control and measurement device is used to measure analog inputs and perform analog controls as part of servicing power or industrial facilities. The device can operate autonomously or be part of a distributed telemechanics system. The USP-119 can operate under the supervision of the SYNDIS system or any other SCADA class software. Communication with the supervisory system takes place via the GPRS channel or the galvanically separated RS-485 channel.

As standard, the USP-119 is equipped with the following modules:

  • STR-205 (CPU / Communication)
  • USPA-011 (8 current analog inputs - in two groups)
  • MZB-033 (power supply)

USP-119 has the following transmission channels:

  • RS-485 (channel 1) - for communication with a supervisory system; channel located in the STR-205 module
  • RS-485 (channel 2) - for communication with a supervisory system; channel located in the STR-205 module
  • Ethernet - in the TP100 standard for communication with a supervisory system; the channel is in the STR-205 module
  • GSM / GPRS modem - for communication with the supervisory system via GPRS using APN
  • RS-232 for service purposes - local configuration and service by the user. The channel is in the STR-205 module. The manufacturer has designated this channel also for diagnostic purposes.
Exemplary USP-119

The device is mounted in an aluminum housing, adapted for surface and flush mounting.

As a standard, the USP-119 device is manufactured without a display and keyboard, and its configuration and status checking is performed using a serial link and a computer with appropriate software installed. At the customer's request, the device can be manufactured with an LCD display and a 4-button keyboard as a local terminal, which can be used to check the status of binary inputs, measurements and transmission status. It is also possible to make the controls manually.  []

VCRAPN -1 (digital recorder and analyzer)

Not recommended to apply in new solutions

The VCRAPN-1 digital current and voltage recorder and analyzer is a specialized device designed to collect, record and analyze data characterizing the operation of mining shaft hoists. The recorder can be used for a similar range of tasks in other industrial facilities. The device can also work with current and voltage transformers of other manufacturers, converters of non-electrical quantities and impulse-rotary converters. The waveforms of voltages, currents and other measured parameters are saved on the hard drive of the PC computer cooperating with the recorder. The analyzed waveforms are sampled at 6400 Hz, which gives 128 samples over a 50 Hz wave period.

Registration is triggered when one of the following occurs:

  • short circuit / opening of the relay contact
  • appearance / loss of current or voltage
  • exceeding / lowering the preset value of current or voltage
  • other events resulting in an incorrect level or shape of the monitored current or voltage waveforms

During operation, the recorder connects to the computer via the Ethernet link, using a direct connection or a local network.

The recorder is designed as a portable device. The front panel, containing the connectors used to connect the recorded signals, is secured against access by a hinged cover closed with a key. The cover has a cable entry with dust protection.

The device has the following types of connectors:

  • I-AC - alternating current input
  • U-AC - alternating voltage input
  • WEBS - short / open detection
  • IMP - pulser
  • WE-B - binary inputs
  • WE-A - measurement of direct currents
  • ETH / PC - Ethernet network
  • 230/220 AC / DC - power supply   []

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    MIKRONIKA sp. z o.o.

    60 - 001 Poznań
    Wykopy 2/4
    Poland
    NIP: 779 25 02 760

    MIKRONIKA sp. z o.o.

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