Baldor PC1700RI, PC1100R manual Problems and Solutions, Troubleshooting Guide

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Voltage Variations This generator set must be run at its proper speed to obtain the correct electrical power at its output. All engines have a tendency to slow down when a load is applied to it. The engine governor is designed to hold the operating speed as nearly constant as possible. When the electrical load is increased, the engine is more heavily loaded and engine speed drops slightly. This slight decrease in engine speed results in a slight decrease in generator voltage and frequency output. This voltage and frequency variation has no appreciable effect in the operation of motors, lights, and most appliances and tools. However, timing devices and clocks will not keep perfect time when used on this generator.

Reduced voltage to the load can also be caused by using the wrong extension cord. Small diameter wire will have a voltage drop across the cord when current flows through the wire. This voltage drop can be very significant over long cord lengths. Always use the proper wire size (gauge wire size) for the extension cord to minimize the voltage drop at rated current draw.

Problems and Solutions

Some of the more common problems are listed in Table 5-1. This information is intended to be a check or verification that simple causes can be located and fixed. It is not an exhaustive “how to” for all types of problems.

Table 5-1 Troubleshooting Guide

Problem

Possible Cause

Remedy

 

 

 

Engine will not start

No fuel.

Check that fuel valves are ON. Check fuel level in fuel tank.

 

Restricted air flow.

Check/replace air filter.

 

No spark.

Check/replace spark plug(s). Verify engine switch is in

 

Low oil level.

Oil sensor will prevent engine starting if oil level is low.

 

 

 

Engine will not crank (electric start)

Dead battery.

Remove battery and trickle charge or replace with new battery.

 

 

Never Jump Start.

 

 

 

Engine starts but will not run smoothly

Fuel or ignition problem

Have engine serviced.

 

 

 

Engine overheats

Excessive load

Remove one or more electrical loads.

 

Debris or dirt buildup on engine

Remove debris. Clean engine surfaces to allow cooling.

 

 

 

No output voltage

Ciruit Breaker tripped or defective.

Reset circuit breaker or replace if required.

 

Loss of residual magnetism in exciter

Flash field.

 

field poles.

Check for continuity in windings. Return to factory for repair if open.

 

Open in stator windings

 

Defective exciter circuit.

Check/replace diode and capacitor and flash the field.

 

 

 

Output voltage varies

Irregular speed (fixed speed mode)

Check engine for malfunction or load for fluctuation

 

Fluctuating speed (fixed speed mode)

Stabilize load. The addition of a lamp load (resistance load) may

 

 

compensate partially for load changes caused by intermittent motor

 

 

operation. Do not overload.

Loose terminal or load connections Defective bearing (uneven air gap)

Verify all connections are proper and check tighness torque of terminals.

Replace worn bearing

Low output voltage

Low engine speed

 

Excessive load

 

High resistance connections −

 

connections will be warm or hot

 

Shorted field

 

Low power factor

Check that the Auto Idle switch is in OFF position.

Check engine for malfunction or system for overload. Reduce load. Verify all connections are proper and check tighness torque of terminals.

Test field coils for possible short by checking resistance with an ohmmeter or resistancebridge. Return rotor assembly to factory forrepair if alternator field coils are shorted.

Reduce inductive (motor) load. Some AC motors use about the same current regardless of load. Do not use motors of greater horsepower rating than is necessary to move the mechanical load.

High output voltage

Excessive speed (fixed speed mode)

Check engine for malfunction

Electrical shock when frame is touched

Static charge.

Ground generator frame at local reference ground (see Section 3).

 

Grounded armature or field coil.

Return to factory for repair

 

 

 

MN2411

Troubleshooting and Maintenance 5-3

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Contents PC1100R/PC1700RI Portable Generator California Proposition 65 Warning Table of Contents Ii Table of Contents MN2411 Read This Manual Thoroughly Section Product Safety InformationOperation SymbolsOperation Warning Statements Burn Installation Maintenance Product Safety Information MN2411 Generator Series Labor Limited WarrantySection General Information PartsGeneral Information MN2411 Storage Section Receiving & InstallationPhysical Location Frame Ground Connection Engine Oil Frame Ground ConnectionUse of Electric Motor Loads Section Operation DC Output Operator Control Panel ~ AC OutputAC Circuit Breaker DC Circuit BreakerChoke Engine Switch StopOperator Control Panel DC Circuit Breaker RunOperation MN2411 SE or higher grade SAE 10W−30 or SAE 10W−40 Section Troubleshooting and MaintenanceCheck Air Cleaner Left side cover Check Fuel Level Check Oil LevelPeriodic Maintenance Schedule Clean/Adjust Spark Plug Right side coverClean Spark Arrester CleaningTroubleshooting Guide Problems and SolutionsEngine Oil SE or higher grade SAE 10W−30 or SAE 10W−40 ServiceBaldor District Offices California Proposition 65 Warning

PC1700RI, PC1100R specifications

The Baldor PC1100R and PC1700RI are advanced servo motors that stand out in the competitive landscape of industrial automation. These motors are engineered to deliver exceptional performance characterized by high efficiency, reliability, and precision, making them ideal for a variety of applications ranging from robotics to CNC machinery.

The Baldor PC1100R model features a compact design that offers ease of integration into existing systems. With a power rating of 1.1 kW, it delivers robust torque performance while maintaining energy efficiency. This servo motor is equipped with high-resolution encoders that provide precise feedback for accurate position and speed control. The PC1100R also incorporates advanced thermal management technologies to ensure optimal operating temperatures, reducing the risk of overheating and prolonging the motor's lifespan.

On the other hand, the PC1700RI model offers increased power capacity, rated at 1.7 kW. This motor caters to more demanding applications, providing higher torque outputs without compromising on speed and responsiveness. The PC1700RI is designed with a modular architecture, allowing for versatile configurations that can be tailored to specific project needs. Both motors utilize integrated digital controls that enable seamless communication with various automation systems, facilitating smooth operation and enhanced flexibility.

In terms of construction, both the PC1100R and PC1700RI feature durable housing designed to withstand harsh industrial environments. They possess an IP65 rating, making them resistant to dust and water, which is essential for machinery operating in challenging conditions. Additionally, these motors are designed with low vibration and noise levels, contributing to a more comfortable working environment.

Another notable characteristic of the Baldor PC series is the ability to support a variety of feedback devices, including incremental and absolute encoders. This flexibility ensures compatibility with diverse applications and setups. Both models also come with comprehensive support and documentation from Baldor, ensuring users can efficiently implement and maintain their systems.

In summary, the Baldor PC1100R and PC1700RI servo motors exemplify top-tier engineering in the realm of industrial motors. Their features, including compact designs, high efficiency, advanced feedback systems, and robust construction, make them ideal for tackling the demands of modern manufacturing and automation processes. With their reliability and performance, these motors are poised to play a critical role in enhancing productivity across various industries.
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