Phase Technologies Essential Series Operation & Installation Manual

Brand: Phase Technologies

Model: Essential Series

Type: Operation & Installation Manual

This manual is also suitable for

Operation & Installation Manual

1/3 HP to 2 HP

120 V or 240 V

Single Phase

2-Wire & 3-Wire Motors

Essential Series

Variable Frequency Drive

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No portion of this publication or its contents may be duplicated by any means, electronic or otherwise, without the

express written consent of Phase Technologies, LLC.

V1.4_06022020

231 E. Main Street North

Rapid City, SD 57701

Phone: 605-343-7934

Fax: 605-343-7943

Toll Free: 866-250-7934

www.phasetechnologies.com

Essential Series

Variable Frequency Drive

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SAFETY MESSAGES AND WARNINGS

To ensure safe and reliable operation of the Essential Series drives, it is important to

carefully read this manual and to observe all warning labels attached to the unit before

installing. Please follow all instructions exactly and keep this manual with the unit for

quick and easy reference.

Definitions of Warning Signs and Symbols

CAUTION: Indicates a potentially hazardous situation that could result in injury or

damage to the product.

WARNING: Indicates a potentially hazardous situation that could result in serious

injury or death.

HIGH VOLTAGE: The voltage associated with the procedures referenced could

result in serious injury or death. Use caution and follow instructions carefully.

READ THESE WARNINGS BEFORE INSTALLING

OR OPERATING EQUIPMENT!

WARNING: Risk of electric shock. More than one disconnect switch may be

required to de-energize the equipment before servicing.

WARNING: Risk of electric shock. De-energize the unit by disconnecting all

incoming sources of power, then wait 10 minutes for internal charges to dissipate

before servicing the equipment.

HIGH VOLTAGE: This equipment is connected to line voltages that can create a

potentially hazardous situation. Electric shock could result in serious injury or death.

This device should be installed only by trained, licensed, and qualified personnel.

Follow instructions carefully and observe all warnings.

WARNING: This equipment should be installed and serviced by qualified

personnel familiar with the type of equipment and experienced in working with

dangerous voltages.

WARNING: Installation of this equipment must comply with the National Electrical

Code (NEC) and all applicable local codes. Failure to observe and comply with these

codes could result in risk of electric shock, fire, or damage to the equipment.

CAUTION: Circuit breakers, fuses, proper ground circuits, and other safety

equipment and their proper installation are not provided by Phase Technologies, LLC,

and are the responsibility of the end user.

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CAUTION: Failure to maintain adequate clearance may lead to overheating of

the unit and cause damage or fire.

WARNING: Input power connections should be made by a qualified electrician

into circuit with adequate voltage and current carrying capacity for the model. Branch

circuit protection to the unit should be provided by appropriately sized fuses or a 2-

pole circuit breaker.

CAUTION: Use 600 V vinyl-sheathed wire or equivalent. The voltage drop of the

leads needs to be considered in determining wire size. Voltage drop is dependent on

wire length and gauge. Use only copper conductors.

CAUTION: Wires fastened to the terminal blocks shall be secured by tightening

the terminal screws to a torque value listed in Table 4.

CAUTION: The input wire gauge must be sized to accommodate the single-

phase input current, which will be significantly larger than the three-phase output

current to the load.

CAUTION: The maximum wire gauge for the input terminals is listed in Table 4.

CAUTION: Never allow bare wire to contact metal surfaces.

CAUTION: Never connect AC main power to the output terminals Red, Blk/Yel,

and Blk.

WARNING: Under certain conditions, the motor load may automatically restart

after a trip has stopped it. Make sure power to the drive has been disconnected before

approaching or servicing the equipment. Otherwise, serious injury may occur.

 
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TABLE OF CONTENTS 
 INTRODUCTION ..............................................................................................................................1 
 RATINGS .........................................................................................................................................2 
 INSTALLATION ...............................................................................................................................4 
1 MOUNTING YOUR NEW ESSENTIAL SERIES VFD ...........................................................................4 
2 PROPER VENTILATION .................................................................................................................4 
3 SOURCE BRANCH CIRCUIT PROTECTION ......................................................................................4 
4 GROUNDING ...............................................................................................................................5 
5 WIRE SIZING...............................................................................................................................5 
6 CONNECTING THE LOAD ..............................................................................................................5 
7 CONNECTING TO FIELD WIRING TERMINALS ..................................................................................6 
8 ROUTING POWER CABLES ...........................................................................................................6 
9 CONTROL WIRING .......................................................................................................................7 
 USING THE KEYPAD AND DISPLAY ......................................................................................... 12 
1 DISPLAY MODES ...................................................................................................................... 12 
2 PASSWORD PROTECTING THE KEYPAD ...................................................................................... 12 
3 KEYPAD DISPLAY MESSAGES ................................................................................................... 13 
4 KEYPAD MAIN MENU ITEMS ...................................................................................................... 13 
5 CHANGE PARAMETER VALUES .................................................................................................. 14 
6 READ MEASURED VALUES ........................................................................................................ 15 
7 READ TIMERS .......................................................................................................................... 17 
8 CLEAR MEMORY ...................................................................................................................... 18 
9 RESTART LOG ......................................................................................................................... 18 
 ADJUSTABLE PARAMETERS .................................................................................................... 20 
1 CHANGING PARAMETER VALUES ............................................................................................... 20 
2 RESTORE DEFAULT PARAMETER SETTINGS ............................................................................... 21 
3 AUTO RESTARTS ..................................................................................................................... 22 
4 ALL PARAMETERS LIST ............................................................................................................. 22 
5 CHANGED PARAMETERS LIST ................................................................................................... 22 
 OPERATION ................................................................................................................................. 29 
1 COMMISSIONING THE UNIT ........................................................................................................ 29 
2 GROUND FAULT DETECTION ..................................................................................................... 29 
3 DRY WELL/DEADHEAD PROTECTION & LOW PRODUCTION WELL CONTROL ................................. 31 
4 MOTOR OVERLOAD PROTECTION .............................................................................................. 31 
5 SYSTEM CONFIGURATION ......................................................................................................... 32 
6 START-UP AND SHUT-DOWN RAMP TIMES ................................................................................ 32 
 CONSTANT PRESSURE SYSTEMS ........................................................................................... 33 
1 CONTROL PRINCIPLES OF CONSTANT PRESSURE SYSTEMS ........................................................ 33 
2 DIGITAL PRESSURE SWITCH ..................................................................................................... 35 
3 DIGITAL CONSTANT PRESSURE SYSTEMS .................................................................................. 36 
4 PERFECTPRESSURE™ SETUP – ANALOG CONSTANT PRESSURE ................................................ 38 
5 ANALOG CONSTANT PRESSURE SYSTEMS ................................................................................. 39 
6 BASIC ANALOG CONSTANT PRESSURE INSTALLATION PROCEDURES: .......................................... 40 
7 PRE-CHARGE MODE ................................................................................................................ 41 
8 TANK SIZING ............................................................................................................................ 42 
9 TROUBLESHOOTING CONSTANT PRESSURE SYSTEMS ................................................................ 42 
 TROUBLESHOOTING.................................................................................................................. 43 
1 FAULT CODES.......................................................................................................................... 43 

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INTRODUCTION

Essential Series variable frequency drives (VFDs) are inverter based devices that provide

speed control for two- and three-wire, single-phase, AC motors. The drives offer advanced

motor control features through an intuitive, easy-to-use interface.

Essential Series Design

The diagrams in Figure 1 and Figure 2 illustrate the basic function of the Essential Series

drives for 2 & 3 wire single phase motors.

Figure 1 – Essential Series 2-Wire Block Diagram

Figure 2 – Essential Series 3-Wire Block Diagram

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RATINGS

Product Specifications

Table 1 – General Specifications

ES3R

1/3 - 2

Motor Style

2-Wire or 3-Wire

Nominal Input Voltage

120/240 VAC

Input Voltage Range

96 – 132 VAC

190 – 265 VAC

Max. Input Current

24 A

Output Voltage

Equal to Input

Max. Output Current

13.1 A

Output Power

2 kW

Enclosure Type

NEMA 3R

Operating Temperature

1/3 HP to 1-1/2 HP -20 °C to 50 °C (-4 °F to 122 °F)

2 HP -20 °C to 40 °C (-4 °F to 104 °F)

Storage Temperature

-13 °F – 165 °F

(-25 °C – 74 °C)

Dimensions (H x W x D)*

12.25 in x 9.25 in x 4.68 in

Weight

7 lbs

* Detailed dimensions on next page.

Essential Series drives are capable of operating several types of systems, including:

• Simple ON/OFF motor control from the keypad or remote switches

• Digital constant pressure water systems

• Analog constant pressure water systems

• Analog speed potentiometer controlled systems

• Pump Up or Pump Down water systems

The drive contains a wide range of settings and parameters allowing the user to easily

configure the drive for many applications. Detailed information on setting System

Configuration can be found in Section 6.5, on page 32.

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Enclosure Dimensions

Figure 3 – Essential Series Enclosure Dimensions

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INSTALLATION

3.1 Mounting Your New Essential Series VFD

Proper installation of the unit is important to the performance and normal operating life of

the unit. It should be installed in a location free from:

• Corrosive gases or liquids

• Excessive vibration

• Airborne metallic particles

Mount the unit to a solid, non-flammable surface capable of bearing the weight using the

mounting bracket provided on the unit.

3.2 Proper Ventilation

In order to maintain air circulation for adequate cooling, minimum clearance around the unit

must be maintained. Allow six inches on each side and top, and 18 inches below.

Ensure air intake and exhaust openings are not obstructed. If the unit is mounted in a small

room, cabinet, or building, ensure there is adequate ventilation to provide sufficient cooling

for the unit.

3.3 Source Branch Circuit Protection

Branch circuit protection must be installed in the circuit sourcing the drive. See Table 2 for

recommended circuit breaker sizing, which is based on 125% of the rated input current.

Fuses may be used for circuit protection; consult local electrical code for proper sizing.

Installation of a disconnection means within sight of the drive is recommended.

Table 2 – Fuse/Breaker Recommendations

Fuse/Breaker Recommendations

Motor HP

Input Current

Fuse/Breaker

120 V

1/3

8 A

10 A

1/2

12 A

15 A

24 A

30 A

240 V

1/2

6 A

10 A

3/4

9 A

15 A

12 A

15 A

1 1/2

18 A

25 A

24 A

30 A

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3.4 Grounding

• Properly ground the drive according to local electrical code.

• Connect the ground lug to the branch circuit or service ground conductor.

Table 3 – Ground Wire Specifications

Model

Recommended

Ground Wire Size

ES3R

10 AWG

3.5 Wire Sizing

Wire size must comply with all NEC and local electrical code requirements. The voltage

drop from the supply to the drive should be limited to 3% to ensure proper starting and

operation of motor loads. Increase the wire gauge to provide adequate voltage to the load.

Ensure the wire gauge is suitable for the terminal block, see Table 4.

Use the following formula to calculate line voltage drop.



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













See Table 2 for guidelines on fuse and breaker sizes. Installations must comply with all

NEC and local electrical code requirements.

3.6 Connecting the Load

Overload, ground fault, and short circuit protection functions are built into the drive to

protect the load side conductors and motor, as well as the drive itself, from faults.

Table 4 – Input and Output Power Terminal Specifications

Power Terminals: Allowed Wire

Range and Minimum Torque

Wire Size

Torque

14 – 6 AWG

10.5 in-lb

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3.7 Connecting to Field Wiring Terminals

To open the door, unscrew the fastener on the bottom right corner. The door will slide down

onto the hinge and then rotate open to gain access to the wiring panel. For 2-wire motor

and 3-wire motor connections, see Table 5 below.

a. Field Terminal Overview

b. Field Terminal Close-Up

Figure 4 – ES Field Wiring Terminals

Table 5 – Power Terminal Descriptions

Terminal Name

Description

L1, L2

Input power terminals

BLK, BLK/YEL

2-wire output power terminals

RED, BLK/YEL, BLK

3-wire output power terminals

RED

Auxiliary/Start/Run Winding

BLK/YEL

Motor Winding Common

BLK

Main Winding

GND

Earth ground

3.8 Routing Power Cables

Note: Continuous metal conduit should be used for all power cables to reduce radiated

electromagnetic interference (EMI). The conduit must be securely connected to the drive

enclosure drive and the motor case for proper grounding. Consult local electrical code for

proper grounding methods.

Route power cables through the supplied openings in the bottom of the enclosure. Use

appropriate conduit or strain relief devices. Conduit hubs should be IMC or rigid steel

conduit and should be UL listed. Conduit hub locations are shown in Figure 5.

Important Note: Remove all metal shavings after cutting new openings.

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Figure 5 – Essential Series Conduit Locations

3.9 Control Wiring

WARNING! When the drive is turned OFF using a control switch connected

to the AUX terminals, dangerous voltage may still be present on the input lines and

elsewhere inside the enclosure.

The output of the drive can be controlled with a switch connected between the AUX1 and

COM terminals and/or the AUX2 and COM terminals. When AUX1 to COM and AUX2 to

COM are closed, the drive enters run mode after a delay of approximately three seconds. If

AUX1 and AUX2 are closed when the unit is powered on, the output is energized after a

delay of approximately 16 seconds. When AUX1 or AUX2 to COM are open, the drive is

stopped.

To use a 0-5 VDC transducer or a 4-20 mA analog transducer, the optional analog I/O

board is required. Contact Phase Technologies if this upgrade is needed. Figure 6 shows

control terminal locations.

a. AUX1, AUX2, and COM next to field

wiring terminals

b. Analog control terminals, located on

optional analog I/O board.

Figure 6 – Control Terminal Locations

Table 6 describes the control wiring terminals. See connection diagrams in Figure 7,

Figure 8, and Figure 9.

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Table 6 - Control Terminal Ratings and Descriptions

Terminal

Description

Rating

Comments

AUX1

Auxiliary Input 1

Dry contact

type

Pullup

Voltage

< 5 volts,

galvanically

isolated

Digital input. Commonly used for

RUN/STOP command. Controlled by

parameters AUX1 SELECT and

AUX2 SELECT.

AUX2

Auxiliary Input 2

COM

Common

Common for AUX terminals.

The following terminals are only available with upgraded I/O board.

5VO

0-5 VDC Output

0-5 VDC

5 VDC supply to provide power to a

potentiometer. Refer to Table 14 for

details. See Figure 9 for connection

diagram.

VIN

0-5 VDC Input

Analog input for motor speed control.

Speed is relative to scale of signal

from 0 Hz to Max Frequency, set in

Adjustable Parameter menu (default

60 Hz). Connect the wiper terminal of

a potentiometer to this terminal as

shown in Figure 9.

COM

Common

Common for 0-5 VDC.

I+

4-20 mA positive

4-20 mA

Analog transducer connection for

analog constant pressure or

proportional motor speed control from

a current source. Refer to Table 14

for details. See Figure 8 for a

connection diagram.

I-

4-20 mA negative

4-20 mA

CAUTION! Electrostatic discharge (ESD) can damage electronic components.

Discharge ESD prior to touching the board or to making connections. To discharge ESD,

touch your hand to unpainted metal on the enclosure.

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Digital Pressure Switch (standard with Essential Series drives)

Follow these steps to connect a digital pressure switch:

1. Using the keypad, set the value of parameter SYSTEM CONFIG to 1. Refer to Table

14, Interface Parameters, or Section 6.5, System Configuration, for details.

2. Connect either wire of digital pressure switch to AUX1

3. Connect second wire of digital pressure switch to COM

The following steps detail connecting an overpressure switch (not provided by Phase

Technologies).

4. Connect one wire of overpressure switch to AUX2

5. Connect second wire of overpressure switch to COM

6. If using overpressure switch, change AUX2 SELECT to 0

CAUTION: By default, AUX1 is programmed such that OPEN=STOP, CLOSED=RUN

and AUX2 is programmed such that OPEN=RUN, CLOSED=STOP. When SYSTEM

CONFIG = 2 (Analog CP), AUX1 and AUX2 are programmed such that OPEN=RUN,

CLOSED=STOP. See parameters AUX1 SELECT and AUX2 SELECT to change this

setting.

Figure 7 – Connection Diagram for Digital Pressure Switch. Digital pressure switch

connected to AUX1 and COM, overpressure switch connected to AUX2 and COM.

See Section 7.2 for information on changing the pressure set point of the digital pressure

switch.

Digital

Pressure

Switch

Overpressure

Switch

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4-20 mA Analog Transducer (Available with optional analog I/O board)

Follow these steps to connect a 4-20 mA transducer:

1. Using the keypad, set the value of parameter SYSTEM CONFIG to 2. See Section

6.5, System Configuration, and Section 7, Constant Pressure Systems, for more

information.

2. Connect the positive lead of the transducer to terminal I_1+.

3. Connect the negative lead of the transducer to terminal I_1-.

CAUTION: If the I+ and I- sensor cable is short circuited or if the sensor fails, the

drive will stop and indicate a fault, SENSOR CONNECTION FAIL. Disconnect input power

to the drive and fix the short circuit or replace the sensor.

Figure 8 – Connection Diagram for 4-20 mA Analog Transducer

Control Tip: Turbulence near pressure switch or transducer can result in poor

pressure control. For best results, pressure switches and transducers should be placed at

least 6 inches away from pressure tanks, check valves, and pipe elbows.

4-20mA

Transducer

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0-5 VDC Potentiometer (Available with optional analog I/O board)

Follow these steps to connect a 0-5 VDC potentiometer:

1. Using the keypad, set the value of parameter SYSTEM CONFIG to 3. Refer to Table

14, Interface Parameters, or Section 6.5, System Configuration, for details.

2. Connect the negative lead of the potentiometer to control terminal COM

3. Connect the wiper terminal of the potentiometer to the V IN terminal

4. Connect the positive lead of the potentiometer to the 5 VO terminal.

CAUTION: By default, AUX1 is programmed such that OPEN=STOP, CLOSED=RUN

and AUX2 is programmed such that OPEN=RUN, CLOSED=STOP. When SYSTEM

CONFIG = 2 (Analog CP), AUX1 and AUX2 are programmed such that OPEN=RUN,

CLOSED=STOP. See parameters AUX1 SELECT and AUX2 SELECT to change this

setting.

CAUTION: The resistance value of the transducer must be from 5k Ohms to 2k

Ohms. Resistance below 5k Ohms will produce a high current in the circuit and may

damage components in the circuit.

Figure 9 – Connection Diagram for 0-5 VDC Potentiometer

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USING THE KEYPAD AND DISPLAY

Essential Series drives are capable of many advanced, easy-to-use features that allow the

user to protect the motor load from damage, monitor load conditions, log motor run time,

troubleshoot the system, and more. The keypad is easy to use and understand, with 32

character text messages and an intuitive interface specifically tailored for pumping

applications.

Figure 10 – Graphic Display and Keypad

4.1 Display Modes

After two minutes of keypad inactivity, the display will revert to the default display mode.

Information on the display will vary based on the operating mode of the drive. When

operating in AUTO mode with the factory default System Configuration 0, the display will

indicate output kilowatts (kW), output amps (A), output frequency (Hz) and the status of the

AUX1 and AUX2 inputs.

4.2 Password Protecting the Keypad

The keypad can be set up with a password to prevent unauthorized changes in adjustable

parameters. The parameter PASSWORD SETUP (Table 14, Interface Parameters) is used

to protect the keypad. When this parameter has a value of zero the keypad is not protected.

To password protect the keypad, enter a password consisting of a number between 1 and

99 as the parameter value. Contact customer service at 605-343-7934 if you lose or forget

the password.

ENTER key selects

menu items and

saves parameter

values after scrolling

to desired setting

RUN and

STOP keys to

control motor in

manual mode

UP and

DOWN keys

scroll through

menu items

HOME key

toggles Main

Menu and

Home screen

MANUAL and

RUN/AUTO

selects OFF,

MANUAL, or

AUTO mode

BACK key

returns to

screen

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4.3 Keypad Display Messages

Essential Series VFDs have several operating modes: AUTO, MANUAL, and OFF. The

factory default operating mode is OFF. Operating Modes are detailed in Table 7.

Table 7 – Operating Modes

MODE

DESCRIPTION

AUTO

In AUTO mode, the motor load will automatically run if both AUX1 and AUX2

remote switches are closed. Open AUX1 or AUX2 to stop the motor or push

STOP/OFF key.

The parameter, ENABLE RESTARTS, must be set to YES to allow automatic

re-starts. See Table 15, Auto-Restart Parameters for details.

CAUTION: By default, AUX1 is programmed such that OPEN=STOP,

CLOSED=RUN and AUX2 is programmed such that OPEN=RUN,

CLOSED=STOP. When SYSTEM CONFIG = 2 (Analog CP), AUX1 and

AUX2 are programmed such that OPEN=RUN, CLOSED=STOP. See

parameters AUX1 SELECT and AUX2 SELECT to change this setting.

MANUAL

Activate MANUAL mode by pushing the MANUAL key until MANUAL appears

on top left of the display. In MANUAL mode the motor load is controlled by

using the RUN and STOP keys, which will override the AUX1 and AUX2

remote switches.

Manual control of the drive through the keypad can be disabled through the

parameter DISABLE MANUAL. See Table 14, Interface Parameters, for

details.

CAUTION: Operating the system in MANUAL mode on the keypad

overrides signals from the pressures switches. Operating the system in this

mode may lead to dangerous pressures in closed plumbing systems.

CAUTION: If the 4-20 mA or 0-5 VDC control terminals are short

circuited, power will be lost to the keypad. If the drive is in MANUAL RUN

mode the drive will not respond to a STOP command on the keypad.

Disconnect input power to the drive to stop the motor and then fix the short

circuit.

OFF

The factory default operating mode is OFF. The adjustable parameter,

ENABLE RESTARTS, must be set to 1 to allow automatic re-starts. To exit

AUTO mode, press the STOP/OFF key until OFF appears on top left of the

display. If the motor is running, it will stop. To restart the motor, revert to either

AUTO mode or MANUAL mode. Certain faults can also be cleared by

pressing the up and down arrow keys at the same time and holding for one

second.

4.4 Keypad Main Menu Items

The HOME key toggles between the Home screen (operating status screen) and the Main

Menu items. Use the UP and DOWN arrows to scroll through the Main Menu items. Press

ENTER to view or edit a Main Menu item.

Figure 11 contains a brief description of Main Menu items, followed by in-depth instructions

on the use and function of each Main Menu item.

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Figure 11 - Navigating Main Menu Items

Table 8 – Main Menu Items

DISPLAY MESSAGE

DESCRIPTION

CHANGE

PARAMETER VALUES

Allows the user to set values for functions such as motor

overload settings, dry well condition, time to restart after

a fault, etc.

READ MEASURED

VALUES

Displays measured values such as output current, input

voltage, load power factor, etc.

READ TIMERS

Records motor run time and drive on time.

RESTART LOG

A re-settable fault log that records the number of times a

particular fault has occurred. The number of faults

counted in this log can be cleared through the CLEAR

MEMORY menu.

CLEAR MEMORY

This function clears the Restart Log and Timers. All fault

counters in the Restart Log will be reset to zero. If any

number of automatic restarts have been allowed through

parameters in the Auto Restart Parameters (Table 15),

the counter on these faults will be set to zero.

4.5 Change Parameter Values

The Main Menu item, CHANGE PARAMETER VALUES, leads to several sub-menus that

contain adjustable operating parameters. These parameters provide basic functions such

as motor overload protection and advanced features that allow you to customize operation

of the drive to fit your application.

The following Section 5, Adjustable Parameters, contains a complete list of the parameters

along with a description of their function and instructions on setting them.

CHANGE

PARAMETER

VALUES

MANUAL

OFF

AUX1

8HP 12A

READ

MEASURED

VALUES

READ

TIMERS

FAULT

LOG

Press HOME, then use UP and DOWN arrow

keys to scroll through Main Menu items

Press ENTER key to

view or edit a Main

Menu item

Press BACK key to

escape back to the

Main Menu items

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Figure 12 – Change Parameter values

4.6 Read Measured Values

The display can provide a variety of measured values related to the performance of the

drive and its load, such as currents, horsepower, and power factor. To read measured

values:

1. Press the HOME key to access Main Menu items, and then scroll with arrow keys

until READ MEASURED VALUES appears on the display.

2. Press ENTER to access this menu item.

3. Use the up and down arrow keys to scroll through the various values that you

wish to read.

Programming Tip

Press the HOME key at any time to return Home screen (operating status screen).

READ

MEASURED

VALUES

CHANGE

PARAMETER

VALUES

Press either arrow

key to scroll list of

Main Menu items.

Press ENTER

key to view sub-

menus of

Adjustable

Parameters.

OPERATING

PARAMETERS

AUTO RESTART

PARAMETERS

Scroll through

sub-menus

with arrow

keys

Press BACK key to go

back to Main Menu Items

ENABLE

RESTARTS

Press ENTER

key to access a

parameter list in

a sub-menu.

Scroll through

list of

parameters

with arrow

To change a parameter value,

scroll to the parameter, press

ENTER, and then use the

arrow keys to change the

value. Press ENTER to save

the change, or BACK to

escape without saving the

change.

ENABLE

RESTARTS

YES

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