Tyco 262-30t User manual

Installation and Operating Manual

262-30T Temperature Control

Digital Meter Relay

http://energy.tycoelectronics.com

Energy Division

Tyco Electronics UK Limited

Crompton Instruments

Freebournes Road, Witham, Essex, CM8 3AH, UK

Tel: +44 1376 509 509

Fax: +44 1376 509 511

Crompton

262-30T Temperature Control

Digital Meter Relay

Installation & Operating Manual

Crompton Instruments

Freebournes Road

Witham

Essex

CM8 3AH

England

Tel: +44 (0) 1376 509 509

Fax: +44 (0) 1376 509 511

E-Mail: [email protected]

Crompton Instruments 262-30TWEB Issue 1 11/2002

Contents Page

1.0 General 1 - 2

2.0 Unpacking 2

3.0 Installation 3 - 5

3.1 Safety Information 3

3.2 Installing Into a Panel 4

3.3 Wiring 4

3.4 Power Supply Continued 4 - 5

3.5 Sensor Connections 5

4.0 Programming the Instrument 6 -10

4.1 Programming Guide 6

4.2 Key Definitions 6

4.3 Entering Menu Mode 7

4.3.1 Moving Around The Menu 7

4.3.2 Entering A Submenu continued 7-8

4.3.3 Editing A Parameter continued 8 - 9

4.3.4 Returning From Submenus 9

4.4 The Menus 9

4.4.1 The INPt (INPUT) Submenu 9

4.4.2 The SyS (System) Submenu 10

5.0 Operation

5.1 Run Mode Operation 10

5.2 Failure Modes 10

6.0 Specification 11 - 12

6.1.1 RTD (Pt-100) 11

6.1.2 Thermocouple Inputs 11 - 12

6.2 General Specification 12

7.0 Option Modules 13-14

7.0.1 Installing Modules 13

7.1 262-RLY Dual Relay Module 13

7.1.1 SLT1, SLT2 (Relay Module) Submenu 13 - 14

7.1.2 Relay Specification 14

7.2 262-ALG, Isolated Analogue Output Module 14

8.0 Mechanical Detail 15

1.0 General

The unit is a highly accurate and stable digital temperature indicator that accepts all commonly

used temperature sensors. The unit can be used "stand alone" or, with the Modbus serial

communications module option, as part of a larger system.

The case design enables option Modules to be easily installed without the need for dismantling

or re-calibration. A range of Modules are available for:

●Relay outputs 262-RLY

●Isolated Analogue Output 262-ALG

●Modbus serial communication 262-MOD

1.0 General continued

The diagram shows the rear panel positions for all electrical connections.

2.0 Unpacking

Please inspect the instrument carefully for any signs of shipping damage. The packaging has

been designed to afford maximum protection, however, we cannot guarantee that mishandling

will not have damaged the instrument. In the case of this unlikely event, please contact your

supplier immediately and retain the packaging for subsequent inspection.

3.0 Installation

THIS SECTION FOR USE BY COMPETENT PERSONNEL ONLY

3.1 Safety Information

WARNING READ SAFETY INFORMATION BELOW BEFORE INSTALLATION

WARNING Hazardous voltages may be present on the terminals the

equipment must be installed by suitably qualified personnel and

mounted in an enclosure providing protection to at least IP20.

ISOLATION The power supply terminals and associated internal circuitry are

isolated from all other parts of the equipment in accordance

with BS EN61010-1 for connection to a Category II supply

(pollution degree 2).

Functional isolation (500v max) is provided between input and

output circuits, and between inputs and communications

(where fitted).

Any terminals or wiring connected to the input, output or

communications terminals which are accessible in normal

operation must ONLY be connected to signals complying with

the requirements for Safety extra low voltage (SELV) circuits.

WARNING If not installed in accordance with these instructions, protection

against electrical hazards may be impaired.

●Installation overvoltage category - 2 (as per BS EN61010-1)

●The Mains supply to the equipment must be protected by an external 1 Amp fuse and a

suitable switch or circuit breaker which should be near the equipment.

●The equipment contains no user serviceable parts.

3.2 Installing Into a Panel

Refer to section 8.0 for Mechanical Detail.

The maximum panel thickness is 10mm. The instrument case has an integral gasket which

forms a seal when the instrument is tightened against the panel.

The panel should be clean, smooth and at least 1.6mm thick for the seal to be effective.

●WARNING Use only the retaining screws provided to clamp the instrument

to the panel ( screws must be tightened sufficiently to effect a

seal but must never be overtightened).

3.3 Wiring

All connections are made to sockets which are removable for ease of maintenance. Installation

should be undertaken in accordance with relevant sections of BS6739 - British Standards code of

practice for "Instrumentation in Process Control Systems: Installation design and practice".

3.4 Power Supply

The Power supply rating will be indicated on the top of the instrument, ensure it is correct for

the application. The Mains supply to the equipment must be protected by an external 1 Amp

fuse and a suitable switch or circuit breaker which should be near the equipment.

3.4 Power Supply Continued

Wires are retained by screws. Ensure that the exposed section of the wire is fully inserted and

that no loose strands are exposed.

3.5 Sensor Connections

All sensor connections are made via a five way "fast wiring" socket at the rear of the unit (wire

size 0.5 to 1.5mm2).

Insert small screwdriver blade into tension clamp orifice, (1) push and twist to deflect clamp into

open position. Do not lever screwdriver thus forcing connector body sideways. Insert conductor

tail sufficiently into (2) then release screwdriver. Ensure no loose wire strands protrude.

4.0 Programming the Instrument

The unit is a microprocessor based instrument enabling it to satisfy a variety of applications. All

programming is available from the front panel or via a PC using the RS485 Modbus

communications module.

4.1 Programming Guide

The unit has three operating modes. These are :

●RUN (DISPLAYS PROCESS VARIABLE)

●MENU

●EDIT

RUN is the principal mode of operation, which displays the Process Variable from which all

other modes are accessed. The unit will always time-out back to this mode after one minute.

MENU mode provides access to the programmable parameters.

EDIT mode is entered from Menu Mode and allows the user to inspect and

modify a parameter.

4.2 Key Definitions

The indicator is programmed using the three front panel keys, A,B and C are shown to assist the

tutorial.

CYCLE (A), SHIFT (B) and INC (C) keys are pressed singularly.

ESCAPE (A&B), ENTER (B&C) and CLEAR (A&C) are obtained by simultaneously pressing the

two keys.

4.3 Entering Menu Mode

The Root Menu mode is accessed from "Run" by pressing ENTER (B&C) followed by CYCLE (A).

The display will now show "inPt". In order to understand what this means, the following

diagram shows where we are within the basic Root menu.

* Slot menus only appear when respective option modules are fitted.

4.3.1 Moving Around The Menu

One can browse through the Root menu by pressing CYCLE (A) which moves the menu position

from left to right (after reaching SYS, the menu position wraps around to the start).

4.3.2 Entering A Submenu

To enter a submenu, first cycle around the Root menu until the required submenu is displayed.

For the purposes of this tutorial press the CYCLE (A) key until InPt is displayed. Pressing SHIFT

(B) enters the Input Submenu.

TYPe will now be displayed. The diagram shows our position in relation to other items in the

menu.

Pressing CYCLE (A) moves left to right, wrapping around at the end. The unit alters items in the

menu list depending upon settings made.

4.3.2 Entering A Submenu continued

4.3.3 Editing A Parameter

The items displayed in the menu can either be submenus, parameters or numbers, most of the

items in the Inputs menu are parameters which can be edited.

Press the CYCLE (A) key until tYPe is displayed, then press SHIFT (B).

The current setting will now be shown flashing. This item is changed by pressing the INC (C)

key.

The choice of options available is as follows:

Press the INC (C) key until "rtd" is displayed.

4.3.3 Editing A Parameter continued

Note that whilst the display is flashing, the option on the display has not been saved to memory.

To select an option, the ENTER key sequence is used. Press ENTER (B&C). The display will stop

flashing momentarily before returning to Menu mode. The system automatically steps on to the

next entry to speed the process of programming. This method of editing parameters is repeated

throughout the menu structure.

4.3.4 Returning From Submenus

To return up from the inPt menu to the root menu wait for 1 minute or press the ESCAPE (A&B)

key. Pressing the ESCAPE key from our current position in the Inputs submenu takes us back to

the Root menu. The menu position will automatically step to the next menu item, if no modules

are fitted the unit will show SYS, if modules are fitted SLt1 or SLt2 will be shown.

The Root menu, as its name suggests is not a submenu. Pressing the ESCAPE (A&B) key

sequence whilst in the Root menu will take the user out of Menu mode and into Run mode.

Thus the process variable will be shown on the display. Refer to section 5.2 if an error code is

shown after programming in menu mode.

4.4 The Menus

4.4.1 The INPt (INPUT) Submenu

The INPt submenu is used to program all the characteristics of the input sensor and any signal

conditioning that may be required. The selection of an option in the list may affect items further

down. Therefore, during programming, the user should start at the top of the menu and work

down, to avoid setting an option which may later become obsolete. Short menu items shown in

bold.

TITLE OPTIONS DETAIL

tYPE rtd, tc Defines sensor type connected

dP 888.8, 88.88, 8888 Defines decimal point location

Lin cA, J, t, r, S, E, F, n, cuSt Shown only with TC sensor

Lin Euro, din, JiSc, cuSt Shown only with RTD sensor

unit dEg c, dEg F Defines engineering range

bout Hi, Lo Defines high or low scale burnout

FiLt AdPt, nonE, 2 sec, 10 sec Input filtering or smoothing

4.4.2 The SyS (System) Submenu

TITLE OPTIONS DETAIL

LiSt FuLL, SHrt Selects full or short menu

cLEn oFF, on Clear enable (option modules)

SPEn oFF, on Setpoint enable (option modules)

PASS 4 digit passcode Modify any password code

oFFS User defined offset Take care when replacing sensor

Refer to section 7.0 for SLt menu structures.

5.0 Operation

5.1 Run Mode Operation

The normal display shown in this mode is the process variable.

KEYPRESS ACTION

CYCLE (A) View setpoints (Adjust value if SPEn enabled)

CLEAR (A&C) Clear latched alarms (cLEn enabled)

5.2 Failure Modes

If the instrument detects an input, configuration or system error the effect upon the display and

any output options fitted will be determined by the burnout setting in the input menu. These are

summarised below.

Burnout Display Alarms Return

Upscale All on 22mA

Downscale All off OmA

6.0 Specification @20 °C

6.1.1 RTD (Pt-100)

Sensor Range -200 to +850°C [18 to 390 ohm]

Linearisation Standard Euro BS EN 60751 (IEC-751)

DIN BS 1904 (DIN43760)

USA JISC 1604

Custom CUSTOM [X] See note 2

Measurement Accuracy 0.1°C ±0.05% Rdg

Thermal Drift Zero 0.008 °C/°C

Span 100 ppm /°C

Excitation Current 300µA to 550 µA

Maximum Lead Resistance 50 ohms per leg (balanced)

Lead Resistance Effect 0.002 °C/ ohm

6.1.2 Thermocouple Inputs

Sensor Ranges Thermocouple Measuring

Type Range °C See note 3

TC Type K (cA) -200 to 1370

TC Type J (J) -200 to 1200

TC Type T (t) -210 to 400

TC Type R (r) -10 to 1760

TC Type S (S) -10 to 1760

TC Type E (E) -200 to 1000

TC Type F/L (F) -100 to 600

TC Type N (n) -180 to 1300

CUSTOM (cust) -999 to 9999

Linearisation Standard BS EN 60584-1 (IEC 584-1)

Custom CUST

Measurement Accuracy ±0.04% FRI ±0.04% Rdg or 0.5°C

(Which ever is greater)

FRI = Full Range Input

Thermal Drift Zero 0.1 µV/°C

Span 100 ppm/°C

Cold Junction Error ±0.5°C

Cold Junction Tracking 0.05°C/°C

Cold Junction Range -30 to +60°C

6.1.2 Thermocouple Inputs continued

Notes:

1. Measurement Accuracy includes the effect of calibration, linearisation and repeatability.

2. Customer linearisation requirements are available preprogrammed at the factory, contact

your supplier for details.

3. Consult thermocouple reference standards for thermocouple material limitation.

6.2 General Specification @ 20 °C

Input/Output Isolation 500VAC rms (galvanically isolated)

Update time 250 mS maximum

Time Constant (Filter off) <1 second (to 63% of final value)

Filter Factor Off, 2 Seconds, 10 Seconds or Adaptive

Warm-up time 2 minutes to full accuracy

Display Range -999 to 9999

Power Supply 90-253 VAC 50/60 Hz, or optionally 20-35 VDC

Power Consumption 6VA Maximum (options fitted)

Environmental

Sealing to PANEL IP65

Ambient Operating Range -30 to +60 °C

Ambient Storage Temperature -50 to +85 °C

Ambient Humidity Range 10 to 90% RH non condensing

APPROVALS

EMC Emissions BS EN50081-1

Susceptibility BS EN50082-2

ELECTRICAL SAFETY BS EN61010-1

Environmental Approvals for Tension Clamp Terminals

Low Temperature IEC 68-2-1

Dry Heat IEC 512-6-9

Damp Heat IEC 512 -6-3

Damp Heat cyclical IEC 68-2-30

Salt Spray IEC 512-6-6

Sulphur Dioxide IEC 68-2-46

Hydrogen Sulphide IEC 68-2-16

Gas Tightness IEC 512-Pr.11n

7.0 Option Modules

7.0.1 Installing Modules

Power must be removed from unit before adding/removing a module.

Slot 1 (alarm 1 and 2) should be positioned on the left side of the unit looking from the front to

correspond to front panel alarm indicator, slot 2 (alarm 3 and 4) is positioned on the right.

7.1 262-RLY Dual Relay Module

The relay module has two "change over" relays with a common wiper.

7.1.1 SLT1, SLT2 (Relay Module) Submenu

Each relay can be set as high or low alarm independently.

TITLE OPTIONS DETAIL

AL1 Hi, Lo Alarm action

SEt1 User defined PV at which the alarm triggers

HYS1 User defined Hysterisis band (see below)

LAt1 oFF, on Sets latching to on or off

inUI oFF, on Invert relay operation

Continues through for Relays 2 - 4 (when fitted).

Short menu items shown in bold.

7.1.1 SLT1, SLT2 (Relay Module) Submenu continued

Hysteresis Operation

7.1.2 Relay Specification

AC DC

Maximum Load 7A @ 250V 7A @ 30V

Maximum Power 1750VA 210W

Maximum Switching 250V 125V

Electrical Life 105operations at rated load

Mechanical Life 50 Million operations

7.2 262-ALG, Isolated Analogue Output Module

The re-transmission module (when fitted) is designed to provide 0-10mA, 0-20mA or 4-20mA

output in active or passive modes. The output can be any portion of the display. The module can

be used in two modes:

Note: Only one analogue output module can be fitted.

8.0 Mechanical Detail

Material ABS/PC

Weight 200g

Flammability IEC707 FV0

Module weight 40g typical

Panel cutout 92mm x 45mm

http://energy.tycoelectronics.com

Tyco Electronics UK Limited

Crompton Instruments

Freebournes Road, Witham, Essex, CM8 3AH, UK

Tel: +44 1376 509 509 Fax: +44 1376 509 511

The Information contained in these installation instructions is for use only by installers trained to make electrical power installations and is intended

to describe the correct method of installation for this product. However, Tyco Electronics has no control over the field conditions which influence

product installation.

It is the user's responsibility to determine the suitability of the installation method in the user's field conditions. Tyco Electronics' only obligations