KE2 20178 120-208-240 Evaporator controller User Guide
- June 6, 2024
- KE2
Table of Contents
KE2 20178 120-208-240 Evaporator controller
Parts List
The following parts are included:
- Kit #20178 with 120/208-240 VAC controller
- Kit #20844❶ with 120/208-240 VAC controller
- Kit #20631❷ with 120/208-240 VAC controller
- Kit #20222❸ Beacon® I & II replacement
NOTE : All sensors can be used for any purpose and are interchangeable, colors are for ease of identification only.
- (1) KE2 Evaporator Efficiency controller
- (1) high voltage safety shield
- (3) 15’ colored temperature sensors❶❷❸*
- (4) 90 degree quick disconnects
- (5) self-tapping screws
- (2) course thread screws &
- (1) fine thread machine screw with lock washer
- (1) KE2 Terminal Board with fuses
- (1) KE2 Evap Navigation sticker
- (2) 1/2” plastic knockout plugs
- (4) wire ties (rated for low temp)
- (1) air sensor mount
- (1) 5-position pluggable connector (for EEV)
- (4) 3-position pluggable connectors (for power in, transducer and 3A relays)
- (8) 2-position pluggable connectors (for sensors and digital input, analog output)
- (1) 120 Voltage jumper
- (1) 208-240V Voltage jumper (already installed on KE2 Evap)
- (1) Split Bushing (for high voltage shield)
- (1) EC Motor Relay (120V & 240 V) kit (not shown)
- 20844 KE2 Ultimate Install kit includes KE2 Mounting Box pn 20687 and 40’ colored temperature sensors
- 20631 kit does not include temperature sensors
- 20222 Beacon® kit includes an extra temperature sensor, and pressure transducer with cable.
To function properly, the controller requires a room temp sensor (T2Air – blue) and a coil temp sensor (T3Coil – yellow) . KE2 Therm strongly recommends the third sensor is used as 2nd coil temp sensor (T4Aux – green).
Introduction Mode
Applying power to the controller for the first time causes it to enter Introduction Mode. Introduction Mode consists of as little as 4 setpoints that must be con-figured to begin controlling the system.
Controller Webpages
Logging in is required to make changes via the controller webpages.
The defaults are: User Name : ke2admin Password: ke2admin
IMPORTANT: The User Name and Password should be changed from the default for security purposes.
NOTE: When making changes from the display the password is “2222”
Supplies List : All accessories required for the controller to work are supplied. However, truck stock items are required for the installation.
- (2) Conduit to go between the controller and the evaporator
- (2) Conduit connectors (straight or elbow as required)
- (11) High voltage wires matched to the load of the heaters, fans, liquid line solenoid, alarm (if used), and the controller.
- (8) Spade Connectors matched to gauge of high voltage wires
- Wire labeling (numbers, colors, etc.)
- Additional wire ties
- 18 gauge twisted shielded pair (if extending sensor wires)
- Foam insulation if running wires outside the space.
- Silicone (for sealing any box penetrations) Popular Accessories – The following parts are available separately:
- Wire Harness- 10’ pn 20736, 25’ pn 20670, 40’ pn 20737
- Mounting Box pn 20687
- Door Switch pn 20543
- Buzzer & Light Combo (120VAC) pn 20973 Further information on accessories can be found in KE2 Condensed Catalog 411.
Complete Instructions
Please visit: http://ke2therm.com/product/ke2-evaporatorefficiency/and click the Link to Literature button.
— OR —
use this QR code:
Visit our YouTube channel for videos on KE2 Evap installation and setup.
- Video 046 How to Wire the KE2 Evap Controller
- Video 033 How to Confirm the KE2 Evap is Wired Correctly
- Video 068 How to Determine Proper Coil Sensor Location
- Video 069 How to Properly Install a Coil Sensor
- Video 032 Initial Defrost Sequence
© Copyright 2021 KE2 Therm Solutions, Inc., Washington, Missouri 63090
Wiring Schematic – Controller New Installation
IMPORTANT :
Determine the coil sensor location
When arriving on site, put the system into defrost and observe where the frost
on the coil disappears last. Place one sensor in each of the last two places
where the frost disappears
-
Monitor the coil’s air entering and air exiting side. Often the last place frost disappears is on the air exiting side, near the right or left end. Verify all heating elements are working properly. Sensor location is often approximately 1 to 1-1/2” away from the right and left edges of the ac-tive coil surface, and typically near the bottom 1/3rd of the evaporator. Ice tends to grow from the edges inward , but verify coil sensor locations by observing a defrost. Do not install coil sensor on the U-bends. The sensor needs to be as far away from the defrost heat sources as possible.
Note: To prevent sensor wire damage from sharp edges, insert plug I into coil housing -
Plug is inserted in the inner housing to access the coil. Puncture plug to insert sensor wire.
-
the sensor should touch two circuit tubes. When inserting the sensor into the coil, the tip should touch one of the circuit tubes. Don’t locate it next to the heating elements – position it half way between the heaters if possible. In
-
the probe is inserted into the fins approximately 1/16” deeper than the stainless shielding. Pinch the fins gently together, securing the sensor. This provides thermal ballast too, ensuring a complete defrost.
Alternate method – As the defrost termination sensor, it is important the sensor does not ter-minate defrost before all frost is removed from the coil. In some installations, inserting the sen-sor into the coil may position it too close to the defrost heat source. An alternate method of positioning places the sensor vertically between the coil fins, see -
Pinch fins together gently, securing the sensor.
Extending sensor wires
- After the sensors are mounted, route them back to the controller. If the wires must be ex-tended, use 18 gauge twisted shielded pairs. Max recommended length for 18 gauge: 100ft.
- When running the wires back to the controller, do not induce noise on the sensor wires. This occurs when sensor wires are located near high voltage lines (defined by UL as greater than 30V.) Do not run high voltage and low voltage wires in the same conduit.
- If crossing a high voltage line, run the sensor wiring at right angles to minimize noise.
User Interface
Controller Setup: Four Step Intro Mode
Applying power to the controller for the first time causes it to enter Introduction Mode. Introduction Mode consists of as little as 4 setpoints that must be config-ured for the KE2 Evap to begin controlling the system.
Step ❶ – The first setpoint the user is asked to enter is the desired ROOM
TEMP. The default value is -00.0ºF, and the right most 0 will be flashing. Use
the and arrows to change the digit being modified. If you want the room
temperature warmer, press the arrow, and if you want it colder, press the
arrow. Once you have the proper room temp, press and hold ENTER for three
seconds.
Step ❷ – Next, the controller will display DEFROST TYPE, and then display
ELECTRIC, for electric defrost. The controller is designed to work with
electric, hot
gas, and air defrosts. Change this value by pressing the or arrow. Once you
have the correct value, press and hold ENTER for three seconds.
Step ❸ – The controller now prompts for the expansion valve type, and dis-
plays MECHANICAL as the default. If you have a mechanical valve, press and
hold
ENTER for three seconds. If you have an electric valve, use the arrow to move
to the correct valve. With the correct electric valve displayed, press and
hold ENTER for three seconds. NOTE: If you select an electric valve, you will
then be prompted to specify the REFRIGERANT.
The KE2 Evap may also be applied to user defined CUSTOM electric valves. When
CUSTOM is selected, the user is prompted to select MOTOR TYPE, MOTOR STEP
RATE, and MAX VALVE STEPS.
Step ❹ – The fourth prompt is whether KE2 SMART ACCESS is ENABLED or DISABLED.
KE2 SMART ACCESS allows you to easily view your controller online.
Make your selection by using the or arrow, and then press and hold
ENTER for three seconds.
These are the only setpoints required to begin controlling the system. For
setup with multi-evaporator applications see bulletins Q.5.10 and Q.1.32
Adjusting Controller Parameters
The controller has the ability to access an abundance of information from the
4-digit alphanumeric display. However, the controller requires a password,
add-ing a degree of protection from unwanted modifications. The controller
will prompt the user for a PASSWORD when the user attempts to access setpoints
they do not have permission to change.
The Controller Navigation illustration on page 4 shows the menu structure of
the controller. The default display of the controller always shows the actual
room
temperature, defrost, or any alarm condition. Pressing the or arrow will move
from the default display to the next menu column. The VARIABLES menu
column consists of the current sensor readings, and the relays’ state. The
User Password (1111) only provides access to the ROOM TEMP setpoint. For the
protection of the system, access to the SETPOINT and MANUAL control requires
an Installer Password (2222). Pressing the BACK button at any time will return
the user to next level up the menu. A second/third press will either return to
the Main Menu, or to the room temperature reading.
Navigating Menus
- T1 & T4 are parameters and can be set to various functions. The default for T1 is Suction Temp, the default for T4 is Coil Temp.
- The Setpoint paramenters shown in BOLD (Valve Type, Room Temp Setpoint and Defrost Mode) need to be set by the user prior to start up. The other Setpoint Parameters can also be adjusted, however the factory setpoints are generally correct for most applications.
- The Setpoint parameters shown in ITALIC are displayed only when a Custom EEV is used.
- Displayed when an EEV is used.
- Only available if mechani- cal valve is selected. When using an electric valve T1 is fixed as suction temperature.
- The Setpoint parameters shown in BOLD ITALIC are active for bonded controllers only.
- Only displayed when Run Time Defrost is selected.
KE2 Therm Solutions
12 Chamber Dr. . Washington, MO 63090
636-266-0140 .
www.ke2therm.com
Copyright 2021 KE2 Therm Solutions, Inc., Washington, Missouri 63090
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