Robertshaw Ranco ETC Single Stage Electronic Temperature Control - NEMA TYPE 4X Manuale utente

Marca: Robertshaw

Modello: Ranco ETC Single Stage Electronic Temperature Control - NEMA TYPE 4X

Tipo: Manuale utente

INSTALLATION DATA

ETC SINGLE STAGE

ELECTRONIC TEMPERATURE

CONTROL - NEMA TYPE 4X

The Ranco® ETC is a microprocessor

based electronic temperature control

designed to provide on/o control for

commercial heang, venlang, air

condioning and refrigeraon. The ETC

is equipped with a liquid crystal display

(LCD) that provides a constant readout

of the sensed temperature, and a touch

keypad that allows the user to easily

and accurately select the setpoint

temperature, dierenal and heang/

cooling mode of operaon. The ETC

NEMA Type 4X control can accept either

120 or 208/240V AC or low voltage

(24V AC) input power.

APPLICATIONS

All ETC NEMA Type 4X controls have

enclosures rated waterght for outdoor

use. With its wide temperature setpoint

range and selectable heang and cooling

modes, the ETC can be used for a wide

variety of applicaons including bulk milk

coolers, refrigerated storage, cooling

towers, unit heaters, venlaon fan cycling

and trace heang. In addion, the ETC

NEMA Type 4X control is designed to meet the requirements of Arcle

547 of the Naonal Electric Code for use

in agricultural buildings such as poultry houses and livestock barns.

FEATURES

• Wide setpoint temperature range (-30°F to 220°F) and dierenal

adjustment (1°F to 30°F)

• Simple keypad programming of setpoint temperature, dierenal and

cooling/heang modes

• LCD display readout of sensor temperature, control sengs, relay

status and onboard diagnoscs

• LED (Light Eming Diode) backlight to improve visibility of the display

in low light ambient applicaons.

• IP67 rated (water and dust resistant) thermistor-based probe to

remotely monitor temperature

• The sensor probe can be retroed in the eld by the use of factory

installed interconnect

• Remote temperature sensing up to 400 feet

• SPDT output relays

• User-selectable Fahrenheit/Celsius scales

• Lockout switch to prevent tampering by unauthorized personnel

• NEMA Type 4X enclosure rated waterght for outdoor applicaon

• Designed to meet Arcle 547 of the Naonal Electrical Code for use

in agricultural buildings

• An-short Cycle Compressor Delay for cooling applicaons

SPECIFICATIONS

Input Voltage 120 or 208/240V AC, 24V AC oponal, 50/60 Hz

Temperature Range -30°F to 220°F

Dierenal Range 1°F to 30°F

Switch Acon SPDT

Sensor Thermistor, 1.94 in. long x 0.25 in. diameter

with 8 . cable, IP67 rated

Power Consumpon 120/208/240V AC: 100 milliamps

24V AC: 2-6 VA

Relay Electrical Rangs

NO Contact 120V 208/240V

Full-load Amps 16 Amps 8 Amps

Locked rotor Amps 96 Amps 48 Amps

Resisve Amps 15 Amps 8 Amps

Horsepower 1 HP 1 HP

NC Contact

Full-load Amps 5.8 Amps 2.9 Amps

Locked rotor Amps 34.8 Amps 17.4 Amps

Resisve Amps 5.8 Amps 2.9 Amps

Horsepower 1/4 HP 1/4 HP

Pilot Duty: 125 VA at 120/208/240V AC

Control Ambient Temperature

Operang -20°F to 140°F (-29°C to 60°C)

Storage -40°F to 176°F (-40°C to 80°C)

Enclosure NEMA Type 4X Outdoor, Plasc

Agency Approvals UL Listed, File E94419, Guide XAPX

CSA Cered, File LR68340, Class 481302

ETC ORDERING INFORMATION

Uni-Line Number OEM Number Input Voltage No. of Stages

ETC-141000-000 ETC-141020-000 120/240 1

ETC-142000-000 ETC-142020-000 24 1

OPERATION

Liquid Crystal Display (LCD)

The LCD display provides a constant readout of the sensor temperature

and indicates if the output relay is energized. When the S1 annunciator

is constantly illuminated during operaon, the relay is energized. The

display is also used with the keypad to allow the user to adjust the

setpoint temperature, dierenal and heang/cooling modes.

Backlight

When any of the 3 mode keys are pressed, the backlight is acvated

and the ETC is in control mode. Press the SET key to begin program

mode.

Control Setup

The temperature setpoint refers to the temperature at which the nor-

mally open (NO) contacts of the output relay will open. Determine the

load(s) to be controlled and the operang mode required cooling or

heang. Refer to Figure 1 for a visual representaon.

• When the cooling mode is chosen, the dierenal is above the set

point. The relay will de-energize as the temperature falls to the setpoint.

• An-short Cycle Compressor Delay for cooling. Aer a relay

de-energizes, the ETC will prevent the relay from turning on unl a

congurable me has occurred to protect compressor.

• When the heang mode is chosen, the dierenal is below the set

point. The relay will de-energize as the temperature rises to the setpoint.

Programming Steps and Display Mode

The ETC can be programmed in four simple steps using the LCD display

and the three keys on the face of the control.

Step 1 To start programming, press the SET key once to access the

Fahrenheit/Celsius mode. The display will show the current

status, either F for degrees Fahrenheit or C for degrees

Celsius. Then press either the up Ç or down È arrow key

to toggle between the F or C designaon.

Step 2 Press the SET key again to access the setpoint. The LCD will

display the current setpoint and the S1 annunciator will

be blinking on and o to indicate that the control is in the

setpoint mode. Then press either the up Ç key to increase

or the down È key to decrease the setpoint to the desired

temperature.

Step 3 Press the SET key again to access the dierenal. The LCD will

display the current dierenal and the DIF 1 annunciator will

be blinking on and o to indicate that the control is in the

dierenal mode. Then press either the up Ç key to increase

or the down È key to decrease the dierenal to the desired

seng.

Step 4 Press the SET key again to access the stage 1 cooling or heang

mode. The LCD will display the current mode, either C1 for

cooling or H1 for heang. Then press either the up Ç or

down È key to toggle between the C1 or H1 designaon.

Press the SET key once more and programming is complete.

Step 5 Press the SET key again to access the An-short Cycle

Compressor Delay when in Cooling Mode. Press the up Ç or

down È keys to set the delay from 1 to 20 minutes. Press

SET key again to nish programming.

Figure 1: Setpoint and Dierenal Sengs. Diagram indicates relay

on and o points in either the heang or cooling modes.

Lockout Switch

The ETC is provided with a lockout switch to prevent tampering by

unauthorized personnel. When placed in the LOCK posion, the keypad

is disabled and no changes to the sengs can be made. When placed

in the UNLOCK posion, the keypad will funcon normally.

To access the lockout switch, disconnect the power supply and open

the control. The switch is located on the inside cover about 2 inches

above the boom. (See Figure 2). To disable the keypad, slide the

switch to the le LOCK posion. To enable the keypad, slide the switch

to the right UNLOCK posion. All ETC controls are shipped with this

switch in the UNLOCK posion.

LOCKOUT :

LOCK

UNLOCK

USE COPPER CONDUCTORS ONLY

DISPLAY CODES

F FAHRENHEIT

C CELSIUS

H1 HEAT STAGE 1

C1 COOL STAGE 1

EP PROBE FAILURE/

OUT OF RANGE

EE EEPROM FAILURE

E1 IMPROPER KEY

E2 MEMORY ERROR

RELAY RATINGS N.O /N.C.

VAC

120

208/240

LRA

96/34.8 48/17.4

FLA

16/5.8 8/2.9

15/5.8 8/2.9

RES A

PILOT DUTY 125VA

THERMOSTATS

52N8

Figure 2: Lockout Switch

NOTE: The ETC will automacally end programming if no keys are

depressed for a period of thirty seconds. Any sengs that have

been input to the control will be accepted at that point.

All control sengs are retained in non-volale memory if power to the

ETC is interrupted for any reason. Re-programming is not necessary

aer power outages or disconnects unless dierent control sengs

are required.

TROUBLESHOOTING ERROR MESSAGES

Display Messages

E1 Appears when either the up Ç or down È key is pressed when not

in the programming mode.

To correct: If the E1 message appears even when no keys are being

pressed, replace the control.

E2 Appears if the control sengs are not properly stored in memory.

To correct: Check all sengs and correct if necessary.

EP Appears when the probe is open, shorted or sensing a temperature

that is out of range.

To correct: Check to see if the sensed temperature is out of range.

If not, check for probe damage by comparing it to a known

ambient temperature between -30°F and 220°F. Replace the

probe if necessary.

EE Appears if the EEPROM data has been corrupted.

To correct: This condion cannot be eld repaired. Replace the

control.

CL Appears if calibraon mode has been entered.

To correct: Remove power to the control for at least ve seconds.

Reapply power. If the CL message sll appears, replace the control.

Step Annunciator Descripon Display

1 F or C Fahrenheit or Celsius

Scale

2 S1 (blinking) Setpoint

Temperature

3 DIF 1(blinking) Dierenal

Temperature

4 C1/H1 Cooling or

Heang Mode

5 D1 Cooling Delay

Set to 1-20 Minutes

CAUTION

Read all of the informaon in these instrucons before installing

or operang the ETC control.

The schemac drawings and other informaon included in these

installaon instrucons are for the purpose of illustraon and

general reference only.

ETC controls are not to be located in areas of signicant moisture,

dirt or dust as use of the control in such environment may cause

personal injury or property damage and is likely to shorten the

control life.

It is the responsibility of the installer and the user to assure

that the applicaon and use of the ETC control is in compliance

with all applicable federal, state, and local laws, regulaons and

ordinances, including, without any limitaon, all requirements

imposed under the Naonal Electric Code and any applicable

building codes.

INSTALLATION INSTRUCTIONS

WARNING:

Electrical Shock Hazard - Turn o power at the main

power source before installing the ETC control.

DO NOT restore electrical power to the unit unl the

ETC control is properly installed and cover assembled.

Fire Hazard - DO NOT locate the ETC control in an

explosive atmosphere as a re could result due to

possible spark generaon in the control.

All ETC Controls are designed as temperature controls

and are not used as temperature limit controls.

Where failure or malfuncon of the ETC control could

cause personal injury or property damage, other

devices (limit or safety controls) or systems (alarm

or supervisory) intended to warn or protect against

failure or malfuncon of the ETC control must

be installed.

INSTRUCTIONS CONCERNANT L’INSTALLATION

AVERTISSEMENT

Risque de choc électrique - Couper le courant à la

source d’alimentaon principale avant d’installer le

contrôleur ETC. NE PAS rétablir l’alimentaon élec-

trique de l’appareil avant que le contrôleur ETC ne

soit correctement installé et que le couvercle ne soit

assemblé.

Risque d’incendie - Ne pas placer le contrôleur ETC

dans une atmosphère explosive car un incendie

pourrait être déclenché par d’éventuelles éncelles

survenant dans le contrôleur.

Toutes les commandes de l’ETC sont conçues pour

contrôler la température et ne sont pas ulisées com-

me témoins des limites de température.

Si une défaillance du contrôleur ETC peut causer

des blessures ou des dommages matériels, d’autres

disposifs (contrôles des limites ou de la sécurité) ou

des systèmes (d’alarme ou de surveillance) desnés

à prévenir ou à protéger contre une défaillance ou un

dysfonconnement du contrôleur ETC, doivent être

installés.

PRÉCAUTIONS

Lire toutes les informaons contenues dans ces instrucons avant

d’installer ou d’uliser le contrôleur ETC.

Les schémas et toutes les autres informaons gurant dans ces

instrucons d’installaon sont indiqués à des ns d’illustraon et

de référence générale seulement.

Les contrôleurs ETC ne doivent pas être placés dans des zones

ayant un taux d’humidité élevé, de la saleté ou de la poussière,

car l’ulisaon du contrôleur dans de tels environnements peut

engendrer des blessures ou des dommages matériels et est

suscepble de raccourcir la durée de vie du contrôleur.

Il est de la responsabilité de l’installateur et de l’ulisateur de

s’assurer que l’installaon et l’ulisaon du contrôleur ETC soit

faites en conformité avec tous les règlements, lois, et ordonnances

fédéraux, provinciaux, et locaux, y compris, sans y être limité,

toutes les exigences imposées par la Naonal Electric Code ainsi

que tous les codes du bâment, en vigueur.

Figure 4: Typical 120V AC Wiring Diagram.

CONTROL MOUNTING

Mount the ETC to a wall or any at surface using a combinaon of any

two or more of the sloed holes located on the back of the control

case anges. The control’s components are not posion sensive, but

should be mounted so that they can be easily wired and adjusted.

Avoid excessive condions of moisture, dirt, dust and corrosive

atmosphere during installaon. The ETC NEMA Type 4X has provisions

for 1/2 inch conduit connecons. The conduit hub should be secured

to the conduit before securing the hub to the plasc housing of the

control. Cauon should be exercised not to damage the control circuit

board or wiring when installing a conduit connector.

Installaon of ETC NEMA Type 4X Controls must conform to

requirments of the Naonal Electrical Code and Canadian Standards

Associaon. Conduit ngs must be listed by Underwriters

Laboratories and Canadian Standards Associaon as “Liquid-Tight”

when installed to the manufacturer’s specicaons.

ANTI-SHORT CYCLE COMPRESSOR DELAY

When the unit is congured for cooling and there is a call for cooling,

the relay will not acvate unl the An-short Cycle Compressor Delay

is sased. During an An-short Cycle Compressor Delay, the tempera-

ture will alternate with Cd (Cooling Delay) to indicate the Relay On is

delayed.

CONTROL WIRING

General

• All wiring should conform to the Naonal Electric Code and local

regulaons.

• The total electrical load must not exceed the maximum rang of the

control (see Specicaons).

• Use copper conductors only.

• Electrical leads should not be taut; allow slack for temperature

change and vibraon.

Input and Output Wiring

For typical wiring diagrams, refer to Figures 4, 5 and 6. All connecons

are made to the power (lower) circuit board.

Figure 3: Dimensions (inches)

FIELD REPAIRS

Field calibrang or repairs to the ETC control must not be aempted.

Sensors and replacement controls are available through Ranco

wholesalers.

Figure 5: Typical Wiring Diagram for 24V AC Power Input and Line

Voltage Switching

Figure 6: Typical 240V AC Wiring Diagram.

SENSOR MOUNTING

For space sensing, mount the sensor where it will be unaected by

heat/cool discharge or radiated heat sources. Spot sensing requires the

sensor to be in good contact with the surface being sensed. The sensor

can be inserted in a bulb well for immersion sensing.

EXTENDING SENSOR

CAUTION: Sensor wiring splices may be made external from the control.

CAUTION: Disconnect power to control before wiring to avoid possible

electrical shock or damage to the controller.

Addional cable can be spliced to the sensor cable to increase the

length beyond the standard 8 feet. It can be extended up to 400 feet.

The cable should be at least 22 AWG or larger to keep addional

resistance to a minimum.

All splices and wire lengths added to the sensor cable should be made

according to acceptable wiring pracces and should conform to the

Naonal Electrical Code and local regulaons. Use copper conductors

only. Shielded cable is not required. The sensor is not polarity sensive.

Checkout Procedure

1. Before applying power, make sure installaon and wiring

connecons are correct.

2. Apply power to the control and observe one or more cycles

of operaon.

3. If performance indicates a problem, check sensor resistance

to determine if sensor or control is at fault.

4. To check sensor resistance, disconnect sensor and measure

the resistance across the leads while measuring temperature

at the sensor.

Figure 7

SENSOR REPLACEMENT

Figure 8: Sensor replacement on Display (Upper) Circuit Board.

Sensor Replacement

ETC models are available with Quick Connect Sensor feature that

allows for easy sensor replacement due to damage or wear. To access

the sensor connector, disconnect the power supply and open the

control. Remove single screw located in the center of the Display

Upper Circuit Board and carefully remove Display Board Circuit.

Remove Sensor Strain Relief to allow sensor to be removed from unit.

See Figure 3 for location of sensor strain relief. The sensor connection

is made at the P1 Connector on the Display Upper Circuit Board.

See figure 8 for connection information.

Replacement Sensor - Order

Uni-Line Number 1309007-044

(OEM Number 1309007-048)

SENSOR CONNECTOR

Customer Service Telephone 1.800.304.6563

Customer Service Facsimile 1.800.426.0804

[email protected]

Robertshaw®, Ranco®, Paragon® and Uni-Line® are

trademarks of Robertshaw, its subsidiaries and/or

affiliated companies. All other brands mentioned

may be the trademarks of their respective owners.

For Technical Service

Telephone 1.800.445.8299

[email protected]

www.robertshaw.com

02/18 – 352-00009-00 Rev E

SPECIFICATIONS

The sensor is a negave temperature coecient (NTC) thermistor

sensor. The sensor resistance decreases with temperature increase.

It is .25 x 1.94 long with 8 feet #22 AWG cable. The thermistor has a

reference resistance of 30,000 ohms at 77°F (25°C).

Deg. C. Deg. F. RES. Nom.

-40 -40 1,010,000

-30 -22 531,000

-20 -4 291,200

-10 14 166,000

0 32 97,960

10 50 59,700

20 68 37,470

25 77 30,000

30 86 24,170

40 104 15,980

50 122 10,810

60 140 7,464

70 158 5,200

80 176 3,774

90 194 2,753

100 212 2,036

110 230 1,531

Figure 9:

Resistance vs. Temperature

Sensor including 8 foot cable.

Robertshaw Ranco ETC Single Stage Electronic Temperature Control - NEMA TYPE 4X Manuale utente

Marca: Robertshaw

Modello: Ranco ETC Single Stage Electronic Temperature Control - NEMA TYPE 4X

Tipo: Manuale utente

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