White Rodgers Official Manual for Installing Thermostats

Page 1

Installation Instructions for:

Vertical

1E30N-910

Snap Action

1E50N-301

 

 

3 REMOVING OLD THERMOSTAT (cont’d)

If no heat anticipator/indication is showing, do not be concerned; move on to the next step.

ATTENTION! This product does not contain mercury. However, this product may replace a unit which contains mercury.

Do not open mercury cells. If a cell becomes damaged, do not touch any spilled mercury. Wearing non-absorbent gloves, take up the spilled mercury and place into a container which can be sealed. If a cell becomes damaged, the unit should be discarded.

YOUR THERMOSTAT REPLACES

System

Models

Standard Heat Only Systems

 

Electric Furnace

1E30N-910

Heat Pump (No Aux or Emergency Heat)

1E50N-301

Gas or Oil Heat

 

Millivolt Heat Only Systems

 

1 PREPARATIONS

Assemble tools required: power drill, flat blade screwdriver, wire cutter/stripper, level.

Failure to follow and read all instructions carefully before installing or op- erating this control could cause personal injury and/or property damage.

2 THERMOSTAT FEATURES

Mounting

Screw

Captive

4

screws

 

WALLPLATE

60

70

50

80

 

90

Mercury must not be discarded in household trash. When the unit this product is replacing is to be discarded, place in a suitable container. Refer to www.white- rodgers.com for location to send product containing mercury.

4 MOUNTING AND WIRING

!WARNING

Do not use on circuits exceeding specified voltage. Higher voltage will damage control and could cause shock or fire hazard.

Do not short out terminals on gas valve or primary control to test. Short or incorrect wiring will damage thermostat and could cause personal injury and/or property damage.

Thermostat installation and all components of the system shall conform to Class II circuits per the NEC code.

A.Remove base from subbase or wallplate: Loosen the screws on the base and remove.

B.Mount switching subbase or wallplate: Use the screws provided to mount the subbase or wallplate to wall (see Fig. 1).

C.Attach wires to appropriate terminals: Two wire systems (Heat Only). Attach one wire to RH and one to wire W.

D.Mount Thermostat Base: Gently push excess wire back into the wall opening and plug hole with a fi re-resistant material, such as fi berglass insulation to pre- vent drafts from affecting thermostat operation. Mount the thermostat base to the subbase or wallplate using the three captive screws on the thermostat base. (See Fig. 1) Tighten the screws securely. Proceed to Step #5.

!CAUTION

Take care when securing and routing wires so they do not short to adjacent terminals or rear of thermostat. Personal injury and/or property damage may

 

 

 

 

RH

50

60

70

80

 

 

90

 

 

 

 

 

 

 

 

 

 

 

 

 

THERMOSTAT

 

 

 

 

BASE

 

COVER

W

 

 

Figure 1. Thermostat with subbase or wallplate

SWITCHING

SUBBASE

G

 

S

Mounting

O Y

F

S

Screw

F

 

T

 

HE E M A T

Mounting

Screw

occur.

TERMINAL CROSS REFERENCE CHART

New Thermostat

 

Other Manufacturers’

 

Terminal Designation

 

Terminal Designation

 

R H

4

R H

M

R 5

R

W

W

W

H

4

W

3 REMOVING OLD THERMOSTAT

5 SET HEAT ANTICIPATOR

!CAUTION

To prevent electrical shock and/or equipment damage, disconnect electrical power to the system at the main fuse or circuit breaker until installation is complete.

Before removing wires from old thermostat’s switching subbase, label each wire with the terminal designation it was removed from.

1.Remove Old Thermostat: A standard thermostat consists of three basic parts:

a.The cover, which may be either a snap-on or hinge type.

b.The base, which is removed by loosening all captive screws.

c.The switching subbase, which is removed by unscrewing the mounting screws that hold it on the wall or adaptor plate.

Make a note here

 

 

of the anticipator setting on the old thermostat

for future reference

 

 

 

and use in step 5.

 

The heat anticipator pointer, if adjustable, will be set at one of a series of numbers representing the current rating of the primary control in your furnace. The number will be one of the following: .2, .4, .8, etc. or 0.2, 0.4, 0.8, etc.

Set anticipator to match the setting of your old thermostat you noted in Step 3, or, the anticipator should be set to match the current rating stamped on your main heating control. The heat anticipator is adjustable from 0.15 to 1.2 amps. Adjust the anticipa- tor by rotating the contact arm (see fi g. 2). The anticipator setting is indicated by the numbers on the base that the pointer points to. If you are unsure where to set the anticipator contact the heater manufacturer for a recommended setting.

Move the pointer counterclockwise to

 

Rotate contact arm

lengthen heating system cycles; move

 

to adjust heat anticipator

clockwise to shorten heating cycles.

 

 

Adjustments should not be greater than

 

 

1/2 marking at a time.

 

 

For millivolt operation, rotate contact arm to

 

 

Millivolt Link.

 

 

Snap on Cover: Carefully align the cover

 

Arrow points to the

with the base and snap the cover onto

Millivolt Link

current rating of

the base.

 

the primary control

Figure 2. Anticipator adjustment

www.white-rodgers.com

PART NO. 37-6844B

Replaces 37-6844A

 

0920

Image 1
Contents Mounting and Wiring Thermostat FeaturesYour Thermostat Replaces PreparationsTroubleshooting SpecificationsNEW Thermostat Operation Especificaciones Problemas DE SoluciónTermostato Nuevo DEL Funcionamiento Preparación Viejo Termostato EL Retirar Cómo

1E50N-301, 1E30N-910 specifications

White Rodgers is a well-established name in the HVAC industry, known for its innovative and reliable control solutions. Among its notable offerings are the White Rodgers 1E30N-910 and 1E50N-301 thermostats, which boast a range of advanced features tailored to enhance comfort, convenience, and efficiency in heating and cooling systems.

The White Rodgers 1E30N-910 is a programmable thermostat designed primarily for residential use. It supports four schedule settings per day, featuring options for both weekday and weekend programming. This allows users to customize temperature settings according to their routines, ensuring optimal comfort when they are home while saving energy during periods of absence. Its intuitive user interface, complete with a large, easy-to-read display, makes programming simple and user-friendly.

One of the standout technologies in the 1E30N-910 is its Smart Recovery feature. This technology intelligently calculates the optimal time to start heating or cooling the home to reach the desired temperature by the scheduled time. This means users can enjoy their desired temperature right when they arrive home while avoiding unnecessary energy consumption. Additionally, the thermostat is compatible with multi-stage heating and cooling systems, including heat pumps and gas furnaces.

On the other hand, the White Rodgers 1E50N-301 is a premium single-stage thermostat that combines technology with user-centered design. This model features a sleek, modern design that seamlessly integrates with various home decors. It provides users with a straightforward, non-programmable option that focuses primarily on ease of operation for those who prefer simplicity without sacrificing performance.

Both models are equipped with advanced temperature control capabilities that ensure accurate and consistent climate management. They feature an intuitive menu-driven setup that allows for straightforward adjustments to system settings and preferences. The 1E50N-301 also includes a low battery indicator, ensuring that users are never caught off guard by battery failure.

In addition to their user-friendly features, both the 1E30N-910 and 1E50N-301 are built with durability and reliability in mind, ensuring long-term performance. These thermostats reflect White Rodgers’ commitment to providing energy-efficient solutions that cater to the dynamic needs of modern households. Overall, whether opting for the programmable flexibility of the 1E30N-910 or the straightforward functionality of the 1E50N-301, users can expect to enhance their home comfort significantly while optimizing energy use.