(**) — denotes optional elements, not installed as standard; not all optional elements may be installed concurrently
The LB-474A3 regulator features a simplified version, limited to on–off adjustment of temperature and humidity. The simplified version is the LB-474A2 regulator — it features a limited number of configurable parameters and a vastly simplified menu.
The LB-474A3 regulator is, as a standard, equipped with a measurement module of analogue inputs, operating in one of the available modes:
The measuring module of the analogue inputs is factory-calibrated; additionally, it is possible to calibrate by entering inputting temperature corrections or an individually defined psychrometric constant. In the analogue input mode the user may calculate each and every input value (0–10 V, 0–1 V, 4–20 mA) according to individually defined variables that may be used as an input signal for the regulators, or may be displayed.
The usage of platinum RTD probes and a four-wire connection between them ensures high measurement accuracy and thermometer consistency. The external temperature sensors come in casings with a design adapted to individual requirements. There are various versions of sensor casings for measurement in different media and ranges available.
Temperature measurement module for Pt sensors works with high precision in the range of -200°C – +650°C. It is calibrated with a division into 8 measurement ranges, considering standard IEC 751 characteristics for platinum RTD thermometers.
The LB-754PAY wet-and-dry bulb thermometer in combination with the LB-474A panel is a device that measures air humidity and temperature. The basic advantage of the electronic wet-and-dry bulb thermometer is high humidity measurement precision — maximum of 1% in the range of high humidity values. The wet-and-dry bulb thermometer is free of flaws typical for meters based on thin-layer capacitive humidity sensors (hysteresis and drift for high humidity values). The wet-and-dry bulb thermometer consists of two thermometers operating with the use of Pt1000 platinum probes: dry and wet (dampened with a wick). Uniform flow of air is secured by an electric fan. Thermometers are mounted horizontally, inside a metal casing, over a distilled water tank.
Per additional order, the LB-474A3 temperature and humidity regulator with connected temperature sensors may feature an individual calibration certificate for temperature/humidity measurement path issued by a PCA-accredited LAB-EL Calibration Laboratory. The certificate is issued after individual adjustment performed in the Laboratory and after the calibration. The certificate covers a set consisting of the LB-474A3 with Pt-1000/Pt-100 probes.
The instrument may be optionally equipped with one or two binary inputs. One binary input occupies one option slot (the regulator features two option slots). The binary input may be controlled with a 0/10 V signal. The input is galvanically isolated.
The instrument may be optionally equipped with one or two S300 inputs. One S300 input occupies one option slot (the regulator features two option slots). The S300 connection is a method of connecting measurement sensors via 1 pair of cables, devised by LAB-EL. The S300 executes connections over considerable distance in an environment of higher level of interference. LAB-EL’s product range features many devices with S300 output.
The regulator may serve up to 3 variables for every S300 input. For example: when the LB-710 thermohygrometer is connected to the S300 input, there will be two variables available in the regulator: temperature and relative humidity. Any variable may be displayed in the instrument's B display.
By default, the instrument is delivered with 5 relays, with configurable functions. They may be used as a regulation path output of an on–off threshold type, or three-way regulation, eventually for PWM for PID algorithm. Relay outputs may also be connected with logic signals available in the instrument, e.g.: value compactors, runtime, measurement errors or alarm generators.
In each of the option slots an additional relay output may be featured, thereby increasing the number of relays to 7. In option slots, instead of the relays, there may be 0–10 V voltage outputs, designed for controlling the external SSR relay.
The instrument may be optionally equipped with one or two analogue outputs out of the following: 0–10 V, 0–1 V, 4–20 mA. One analogue output occupies one option slot (the regulator features two option slots). Configuration of the analogue slot enables it to be connected internally to an output signal of a selected path of the PID regulator. It is also possible to switch the source of this signal — e.g. to a constant value — using the programmable logic structure of the regulator.
The instrument features 4 regulation channels. Each channel is assigned with any given PV input variable, and a settable series of operation parameters. Available types of regulation are:
Regulation may be effected in two time zones (e.g. day/night).
The regulator carries out elements of logic to create more complex regulatory schemes. The logic is based on 16 logic gates (AND, OR, XOR) and 4 multiplexers (switches) of analogue signals. These elements makes it possible to connect signals between regulation paths, switch values issued to analogue output, run time sequences triggered by a combination of statuses: regulators, binary inputs, analogue value compactors, alarms, measurement errors, etc.
One of the logic elements is an optional real-time clock (RTC). The clock is installed in an option slot (it occupies one of the two option slots). The RTC ensures control in two time zones (e.g.: day/night); each of them may have a separate set of regulation values (SP) and alarm thresholds.
This enables the regulator to connect to a PC and its functions to be programmed via dedicated software. The basic configuration program of the device — ws474.exe — is provided with the instrument and is included in the price.
Advanced SCADA LBX software offers a wide range of functionalities, including recording, visualisation and control over numerous devices. The LBX software is not included in the price.
It is possible to install an additional RS-485 interface to use with the Modbus-RTU protocol. The interface enables communication with many devices via a common data bus. The interface guarantees galvanic isolation. It is not possible to use USB and RS-485 interfaces concurrently, as both interfaces share the same regulator serial port.
The output port of the S300 digital current loop makes it possible to connect a regulator with other LAB-EL devices, e.g. hubs and data recorders: the LB-476 and the LB-480 hubs. An advantage of the S300 line is its capability to extend over hundreds of meters; it is based on a 2-wire cable; it is resistant to interference and provides galvanic isolation.
Large, 3-digit display designed to display temperature measurements; the small display shows one value selected from all possible measured values. The presentation's resolution is selected according to the number of digits that may be displayed.
The regulator is equipped with 5 keys and a menu system for programming operation parameters, without the need to connect a PC.
The controller is designed for application in stationary conditions; its housing is equipped with taps making it possible to mount on a standard DIN TS 35 rail. The device is powered from the mains: 230 V 50 Hz.
The controller may be mounted inside an additional external housing, e.g. wall switchgear. The climatic category of the additional external housing must be adapted to the conditions where it is installed. The device is delivered without wiring (including the power cable), as a component to be installed by an authorised person.
Exceeding the recommended operating conditions (e.g. when installing the device outdoors) requires the use of additional protective measures for the electronic part of the device against the eventuality of water apearing inside the device (the use of additional external housing).
|Measurement resolution||available via communication port||0.01°C|
|available on the screen||0.1°C (max.)|
|Measurement uncertainty for an individual calibration in the range of -40…+150°C||±0.1°C|
|Measurement uncertainty for an individual calibration in the remaining range||±0.2°C|
|Humidity measurement uncertainty for an individual calibration over 50%RH||±1%RH|
|Humidity measurement uncertainty for an individual calibration over 15…50%RH||±1.5%RH|
|Humidity measurement uncertainty for an individual calibration below 15%RH||±2%RH|
|0–10 V VOLTAGE MEASUREMENT|
|Measurement range||0–10 V|
|Measurement resolution||0.01 V|
|Measurement uncertainty||0.05 V|
|0–1 V VOLTAGE MEASUREMENT|
|Measurement range||0–1 V|
|Measurement resolution||0.001 V|
|Measurement uncertainty||0.005 V|
|4–20 mA CURRENT MEASUREMENT|
|Measurement range||4–20 mA|
|Measurement resolution||0.01 mA|
|Measurement uncertainty||0.05 mA|
|POWER SUPPLY, CONTROL OUTPUTS, DIMENSIONS|
|Mains supply||230 V 50 Hz|
|Power consumption||5 VA|
|Load capacity of relay outputs||230 V, 1 A, resistance load|
|Interfaces||USB or RS-485|
|S300 — digital current loop|
|Housing on DIN TS 35 rail||135 x 90 x 58 mm|
|OPERATING TEMPERATURE RANGE|
|Temperature sensor||range limited by the design of the temperature sensor (see sensors’ data)|
|RECOMMENDED CONTINUOUS OPERATING CONDITIONS|
|Humidity range||20…80%, without water condensation|
|Degree of environmental corrosivity, according to PN-71/H-04651||B|
|Protection class according to DIN40050||IP40|