DC Motor Surplus Inventory

The Following DC Electric Motors are currently available in our Surplus Inventory. You can call us anytime to request a quote.

Ph: 877-625-2402

 

OUR Stock NumberManufacturerModel NumberType / Description / Nameplate InformationCondition
116PACIFIC SCIENTIFICSR3624-8291-7-56BC1/4 HP, 1750 RPM, 56C FRAME, 90VDC, TEFC HAS BASENS
173BALDORCDP33161/3 HP, 1750 RPM, 56C FR, 180VDC, PM TENVE OK
174BALDORCDP33301/2 HP, 1750 RPM, 56C FR, 90 VDC, PM, TENVE OK
176PACIFIC SCIENTIFICSR3640-8293-84-7-56HC1/2 HP, 1750 RPM, 56 FR, 90 VDC, PM, TENV, D FLANGEE OK
423GENERAL ELECTRIC6VFM1050B561A11/2 HP, 1725 RPM, 56 FR, 100F, 90A, TENVE OK
425BALDORCDP33261/2 HP, 1750 RPM, 56C FR, 180 VDC, PM, TENVE OK
108BALDORCDP34363/4 HP, 1750 RPM, 56C FRAME, 180 VDC, PM, TEFC, NO BASEE OK
118BALDORCDP35181 HP, 1750 RPM, 56C FRAME, 180 VDC, PM, TEFC, NO BASENS
428LEESONC4D28FK6G1 HP, 2500 RPM, XS56C FR, 180VDC, PM, TEFCE OK
412GENERAL ELECTRIC5BPA56RAG9A1 HP, 1725 RPM, 56 FR, 180 VDC, PM, TEFCE OK
177BALDORCDP34551 HP, 1750 RPM, 56C FR, 180 VDC, PM, TEFCE OK
131RELIANCEDC0189ATCZ2 HP, 1750/1950 RPM, 189ATZ FRAME, 240 A, 150 F, BVE OK
155GENERAL ELECTRIC5CD144VC001B0083 HP, 2500/2750 RPM, 180 A, 200/100 F, 186ATC, TENVE OK
153GENERAL ELECTRIC5CD144VC001B0083 HP, 2500/2750 RPM, 180 A, 200/100 F, 186ATC, TENVE OK
133GENERAL ELECTRIC5CD144VC001B0083 HP, 2500/2750 RPM, 180 A, 200/100 F, 186ATC, TENVE OK
156BALDORCD62033 HP, 1750 RPM, 184TC FR, 180A / 100/200 F, TEFCE OK
157GENERAL ELECTRIC5CD145VC005B0013 HP, 1750/2050 RPM, CD189ATC FR, 180 A/100/200 F, TENVE OK
162RELIANCET18P1118E-7S3 HP, 1750 RPM, DC0189ATY FR, 200F, 180A, DPE OK
624RELIANCET18R1323H-PT5 HP, 1750/2300 RPM, CT811ATZ FR, 500A, 300F, DPNS
432CUTLER HAMMER250-100-0116A5 HP, 1150/2000 RPM, 256AT FR, 500/300 VDC, DPE OK
150CUTLER HAMMER250-100-0116A5 HP, 1150/2000 RPM, 256AT FR, 500/300 VDC, DPE OK
141GENERAL ELECTRIC5CD1531A806A8007.5 HP, 2500/2875 RPM, 500 A, 150/300 F, CD219T FR, BVE OK
142MAGNETEK2190B411L027.5 HP, 1750 RPM, 180 A, 200 F, 219AT FRAME, BVE OK
434BALDORD501010 HP, 1750 RPM, AD219AT FR, 500A, 150/300F, DPFGE OK
130RELIANCE11839122T2115 HP, 1250/3750 RPM, 259AT FRAME, 120 A, 240 F, BVE OK
137GENERAL ELECTRIC5CD063KA038A12715 HP, 1750/2300 RPM, CD258AT FR, 500 A, 150/300 F, BVE OK
433BALDORD2018R15 HP, 1750/2300 RPM, SC2113ATZ FR, 240A, 180F, DPNS
129RELIANCE4LA843818TL20 HP, 1750 RPM, 284T FRAME, 120 A, 240 F, BVE OK
146RELIANCE06KA867603-ZU20 HP, 1750/1950 RPM, LC2512ATZ FR, 500/300 VDC,E OK
147RELIANCEF28P1701A25 HP, 2500/3000 RPM, 284AT FR, 240/240 VDC, BVE OK
436RELIANCER-66575-T1-HS30 HP, 500/2000 RPM, 505-AS FR, 240A, 240F, HAS BLOWERE OK
441CMC2890B452C0140 HP, 1750 RPM, 289ATZ FR, 500A, 300F, DPRG
454RELIANCET28S1330E-AC60 HP, 1750/2100 , MC2812ATZ, 300/500 VDC, DPBVRG
152POWERTECA28DLF100090001175 HP, 2500 RPM, 2810TZ FR, 640 BUS VDC, BRUSHLESSE OK
440RELIANCE1U827783T5-LP100 HP, 1750 RPM, 503A FR, 480A, 240F, FORCE COOLEDE OK

ABB Energy Saving Solutions

Nearly 70 percent of all industrial electrical energy use goes to powering electric motors. These motors are the workhorses of business, from pumps moving fluids to fans moving air to compressors, conveyors, and every type of machine that depends on rotational force to get its job done. More than 90 percent of industrial motors either cannot adjust their power consumption or use very crude methods to do so. Many always run at full speed, regardless of the actual output needed. In many applications, energy use can be cut to one- eighth just by reducing the motor speed by half.The most immediate, cost-effective and practical way to address the energy challenge is to grasp the opportunities for energy reduction that come from using energy more efficiently with available and proven technology. ABB energy saving solutions includes a variety of products and services. ABBs drives, motors and other technologies can help lower energy use by reducing power consumption and losses, improving productivity or through better management of equipment.

ABB energy saving solutions face today’s industry and commerce energy challenges. Pressures to reduce energy consumption, lower carbon dioxide emissions and provide secure power supplies are coming from governments, consumers, legislators and shareholders. All of these pressures are against a background of ever-rising energy prices and the dramatic effects climate change is having on the environment. As a result, industry and their consumers are demanding ever more energy-efficient products. ABB energy saving solutions consist of low voltage AC drives (variable frequency drives) and DC drives. AC and DC Drives are designed to run electric motors based on the processes current demands rather than running them at full speed and reducing output using mechanical controls like throttles, dampers or gears.

Drives reduce the output of an application, such as a pump or a fan, by controlling the speed of the motor, ensuring it runs no faster than it needs. Many motors are oversized to cope with a maximum demand that rarely or never occurs. The drive brings the motor speed down to match the actual demand needed by the application. This often cuts energy consumption by 50 percent and in extreme cases by as much as 90 percent.

When other control methods are used, such as dampers, vanes or valves, the motor runs at full speed and the flow of the output is mechanically restricted. For instance, the flow through a pipeline may be reduced by a valve. This is wasteful, because the motor keeps running at its nominal speed regardless of the demand. The pump delivers maximum output and the excess is reduced at the valve, where the surplus energy is wasted through friction.

The energy saving potential in industries and utilities is enormous just in motor-driven applications alone: hundreds of millions of electric motors driving machines, compressors, fans, pumps or conveyors in virtually every sector account for about 70 percent of all the electricity that industry uses. In addition to the energy savings, the drive delivers accurate control and less mechanical wear, reducing maintenance and extending the life expectancy of the system. ABBs product range, from 0.18 kW to 72 MW, is the widest available from any manufacturer, offering drives for every need. ABB energy saving solutions are easy to control and quantify. Many of ABBs drives have built-in energy calculators to monitor energy consumption and savings in kilowatt hours, local currencies and carbon dioxide reductions. The drives built-in energy calculators show actual results that can be used as a basis for future energy saving projects.

To learn more about ABB energy saving solutions, visit the ABB Website. For ABB saving solutions, ABB drive repair, or ABB drive replacement quotes, contact Precision Electric, Inc.

 

PLC Center Industrial Repair Alternative with 12 Month In Service Warranty

For over 20 years, Precision Electric has specialized in nationwide board level diagnostics and Industrial repairs.

plc-center-alternative-repair-with-12-month-in-service-warranty

UN-PARALLELED12 MONTH INDUSTRIAL REPAIR WARRANTY

GET A FREE INDUSTRIAL REPAIR ESTIMATE BY THE FORM BELOW OR PHONE:

[contact-form-7 id=”9119″ title=”PLC Center Alternative Repair Request Form”]

ABB Repairs with 12 Month In Service Warranty

For over 20 years, Precision Electric has specialized in nationwide board level diagnostics and ABB repairs.

abb-repairs-with-12-month-in-service-warranty

UN-PARALLELED12 MONTH ABB REPAIR WARRANTY

GET A FREE ABB REPAIR ESTIMATE BY THE FORM BELOW OR CALL ANY TIME:

[contact-form-7 id=”9092″ title=”ABB Repair Request Form”]

What is a Variable Frequency Drive?

Variable frequency drives (VFD) are also known as variable speed drives (VSD), and inverters. Variable frequency drives are solid state motor control systems used in manufacturing facilities across the globe. Variable frequency drives are designed to control the speed of an alternating current (AC) electric motor. Variable frequency drives can reduce energy costs up to 50% by speed reduction on applications where the full speed (RPM) of the electric motor is not required.

This energy savings is often significant enough to pay for the variable frequency drive within a couple of months. Variable frequency drives are commonly used on pump, fan, and air compressor applications, and are often used in manufacturing facilities to increase or decrease the start up time on alternating current (AC) motors.

Increasing and/or decreasing the start up time on an AC motor can add years to the overall lifespan of an AC motor, and can also improve efficiency on production demands. Variable frequency drives provide the ability to control the frequency of starting and stopping an AC motor.This ability provides a means by which an AC electric motor is only operating when needed. AC electric motors have a longer lifespan if they are not continuously operating when they do not need to be.

There are a few different types of variable frequency drives. The most common type of variable frequency drive is known as a V/Hz (volts per hertz), and are applied to applications such as fans, pumps, air compressors, and other related applications where high starting torque is not required. V/Hz variable frequency drive applications typically do not require full torque when the AC motor is operating at less than the base speed (RPM) of the electric motor.

Another type of variable frequency drive is known as a vector control. Vector control is used on variable frequency drives where high starting torque and full torque at low speed (RPM) is present. Vector control variable frequency drives are usually more expensive than a V/Hz drives.

There are other types of variable frequency drives that are more complex than V/Hz and vector control. These more complex variable frequency drives are typically used for precise speed regulation of an AC motor as well as complex programming to regulate starting and stopping of an AC motor.

About Us

History of Precision Electric . . .

precision-electric-inc-motor-shop-facility-about-usPrecision Electric, Inc. was originally started to fill an area in the repair market for customers who demanded quality repair and service. This objective has been sustained to this day. As manufacturers have found the need to become leaner and meaner with their customers, the need for continued operation with minimal downtime is essential.

Keeping equipment operating for long periods of time between service, and repair of that equipment in the most efficient manner possible when service is required, is what Precision Electric does best. What once started as an idea has become a reality. People will continue to come back and continue to send others if they are treated fairly.

The services as offered by Precision Electric must be experienced in order to fully understand the meaning of this mission. All equipment is repaired in a fashion that will equal or improve upon what was originally intended by the manufacturer of that equipment.

Precision Electric was founded in January of 1983. It was located at 306 W. Ewing Avenue in South Bend, Indiana and operated as a partnership in the State of Indiana. Partners and sole employees, Joe Chamberlin and Kerry Dodd, worked from this 2000 sq. ft. facility until March of 1984.

In March of 1984, Precision Electric relocated to a 7200 sq. ft. facility located at 1816 West Sixth Street in Mishawaka, Indiana. Operations continued from the facility until March of 1988. During its time at this location Precision Electric added five employees to its staff, which brought the total employee count to seven. It also became a legal C type corporation in August of 1985.

In March of 1988 Precision Electric, Inc. relocated to an 8400 sq. ft. facility located at 1508 West Sixth Street in Mishawaka, Indiana where it continues to operate. An additional 6400 sq. ft. of space was taken over by Precision Electric, Inc. at the same address in June of 1994. Another addition of space within the same building was made in February 1996 and again in 1998. The total facility area now measures 32,000 square feet. Precision Electric, Inc. now has 18 employees.

Precision Electric Facility Photo Gallery:

Line Card Of Services:

precision electric about us line card

 

 

Google Map Directions and Street View:


View Larger Map

Contact Us

Call Any Time: 574-256-1000

Or Feel Free To Fill Out The Form Below

 

Technical Manuals

Repair-Advertisement-AC-And-DC-Drives

Lenze / AC Tech SMVector Nema 1 and Nema 4x Variable Frequency Drives

SMVector Nema 1 and Nema 4x Variable Frequency Drives

Lenze / AC Tech SMVector Drives & Options

Product Manuals
SMVector Operating Instructions Manual [ pdf ]SV01
Options
EPM Programmer Operating Manual [ pdf ]EP01
SMVector Dynamic Brake Operation Instructions [ pdf ]DBV01
Dynamic Brake Resistors Installation and Connections [ pdf ]DBR00
ESVZXK1 Remote Keypad Instructions [ pdf ]RKV01
ESVZXH0 Remote Keypad Instructions for NEMA 1, 15-30HP drives [ pdf ]RKVU01
SMV Additional I/O Module [ pdf ]ALSV01
SMVector NEMA 4X Terminal Cover with Speed Pot [ pdf ]PTV01
Communications
SMVector Communications Module Installation [ pdf ]CMVINS01
SMVector CANopen Communications Reference & EDS file [ zip ]CMVCAN01
SMVector RS485 / ModBus Communications Reference [ pdf ]CMVMB401
SMVector Ethernet/IP Communications Reference & EDS file [ zip ]CMVETH01
SMVector DeviceNet Communications Reference & EDS file [ zip ]CMVDVN01
SMVector Profibus-DP Communications Reference & GSD file [ zip ]CMVPFB01
SMVector RS485 / Lecom Communications Reference [ pdf ]CMVLC401
CAD Drawings
CAD Drawings for SMV Drives [ html ]smvcadpg
Application Notes
Getting Started with CANopen for PositionServo and SMV Drives [ pdf ]AN0022
Getting Started with DeviceNet for PositionServo and SMV Drives [ pdf ]AN0023
Getting Started with ModBus TCP/IP for PositionServo, SMV, SCF, MC and MCH Drives [ pdf ]AN0024
Getting Started with ModBus RTU for PositionServo, SMV, SCF, MC and MCH Drives [ pdf ]AN0025
Getting Started with Profibus for PositionServo and SMV Drives [ pdf ]AN0026
Basic Network Control of the SMVector Drive via the ESVZAR0 ModBus Module [ pdf ]AN0027
Basic Network Control of the SMVector Drive using OnBoard Modbus Communications [ pdf ]AN0037
Understanding the Stop and EN954-1 Safety Categories with PositionServo and SMV [ pdf ]AN0030
When to use a Line or Load Reactor with Inverter Drives [ pdf ]AN0032
When to Use Open-Collector and Relay Outputs [ pdf ]AN0038
Dynamic Brake Selection for Sub-Micro & SMV Series Drives [ pdf ]AN0039
SMVector Series Drives [ pdf ]DoCSV01

Click on document number (to the far right) to view a pdf file or right click (save target as) to download to your computer.


The Lenze / AC Tech SCM, SCL, SCF, SCD, SMD, TCF, TML and TMD Drives (SCM Pictured Above)

SCM, SCL, SCF, SCD, SMD, TCF, TML and TMD Drives (SCM Shown)

Lenze / AC Tech Sub-Micro Drives & Options

Product Manuals
TCF Instruction Manual [ pdf ]TF01
SCF Instruction Manual [ pdf ]SF01
SCM / SCL Instruction Manual [ pdf ]SM01
SCD Instruction Manual [ pdf ]imsd01
SCN Instruction Manual [ pdf ]imsn
Options
EPM Programmer Operating Manual [ pdf ]EP01
SubMicro Dynamic Brake Module w/ internal resistors [ pdf ]df01
SubMicro Dynamic Brake Module for external resistors [ pdf ]dg01
Dynamic Brake Resistors Installation and Connections [ pdf ]DBR00
SubMicro single phase filters manual [ pdf ]fs01
SubMicro three phase filters manual [ pdf ]ff01
TCF Series Remote Keypad Instructions [ pdf ]KL01
SCF Series Remote Keypad Instructions [ pdf ]KF01
SCM / SCL Series Remote Keypad Instructions [ pdf ]KM01
SCN Series Remote Keypad Instructions [ pdf ]imsnrk
SubMicro DIN rail mounting instructions [ pdf ]imsdin
Communications
TCF Series ModBus communications reference [ pdf ]RG-TFMOD
SCF Series ModBus communications reference [ pdf ]RG-SFMOD
EDS Files for SCD [ zip ]eds
CAD Drawings
CAD Drawings for Submicro Drives [ html ]sccadpg
Application Notes
Braking Guide for AC Tech sub-micro drives [ pdf ]AN0008
Replacing SCF Series with SCM Series [ pdf ]AN0015
SCM / SCL Control Using +24VDC PLC Outputs [ pdf ]AN0016
Getting Started with ModBus TCP/IP for PositionServo, SMV, SCF, MC and MCH Drives [ pdf ]AN0024
Basic Network Control of the SCF Drive using ModBus Communications [ pdf ]AN0028
When to use a Line or Load Reactor with Inverter Drives [ pdf ]AN0032
Basic Network Control of the TCF Drive using ModBus Communications [ pdf ]AN0033
When to Use Open-Collector and Relay Outputs [ pdf ]AN0038
Dynamic Brake Selection for Sub-Micro & SMV Series Drives [ pdf ]AN0039
Declaration of Conformity
SCF Series Drive [ pdf ]DoCSF01
SCL and SCM Series Drives [ pdf ]DoCSM01

Click on document number (to the far right) to view a pdf file or right click (save target as) to download to your computer.


MC and MCH Series Drives (MC Shown) Technical Manuals

MC and MCH Series Drives (MC Shown)

Micro Drives (MC1000 and MC3000 Series) & Options

Product Manuals
MC1000 Series Instruction Manual [ pdf ]M101
MC3000 Series Instruction Manual [ pdf ]M301
Options
MC Remote Keypad installation instructions [ pdf ]MCRK01
MC DB&Form-C Relay kit installation instructions [ pdf ]MDB01
Dynamic Brake Resistors Installation and Connections [ pdf ]DBR00
Communications
MC Series ModBus communications reference [ pdf ]RG-MCMOD
MC3000 Series Metasys communications reference [ pdf ]RG-MCMET
Application Notes
Getting Started with ModBus TCP/IP for PositionServo, SMV, SCF, MC and MCH Drives [ pdf ]AN0024
Getting Started with ModBus RTU for PositionServo, SMV, SCF, MC and MCH Drives [ pdf ]AN0025
When to use a Line or Load Reactor with Inverter Drives [ pdf ]AN0032
Basic Network Control of the M1000/3000 Drive using ModBus Communications [ pdf ]AN0035
When to Use Open-Collector and Relay Outputs [ pdf ]AN0038
Declaration of Conformity
MC1000 & MC3000 Series Drives [ pdf ]DoCMC01

Click on document number (to the far right) to view a pdf file or right click (save target as) to download to your computer.