General, Ccg circuit board, Stepper motor – Generac Power Systems NP-40G User Manual

Section 3.6- SPEED CONTROL SYSTEM

General

The AC generator’s output voltage Is controlled

by a “computerized" speed control system. This

system changes engine speed In response to

changes In the AC output voltage at varying engine

loads. The speed control system consists of (a) the

CCG circuit board and (b) a stepper motor.

CCG Circuit Board

This circuit board utilizes a closed-loop, propor­

tional-derivative controller circuit which regulates

the generator’s RMS voltage by changing engine

speed. The system attempts to maintain an output

voltage of about 115 volts at the lowest rpm and 120

volts up to the maximum rpm.

The system also Includes a controller which will

hold the engine at maximum speed. In this mode,

the system will attempt to maintain an output volt­

age of 105-115 volts.

The CCG circuit board controls a stepper motor

by calculating the number of steps the motor needs

to take and then supplying the necessary signals

to the motor to take those steps.

NOTE: Also see "CCG Circuit Board" on Pages

1.2-4 through 1.2-6.

Stepper Motor

See "Stepper Motor" on Page 1.1-2.

Testing the CCG Circuit Board

See "Testing the CCG Circuit Board" on Pagel .5-

4 and 1.5-5.

Stepper Motor Probiems

INTRODUCTION:

Some stepper motor problems that might occur

Include the following:

n Throttle linkage or carburetor throttle shaft sticking,

or linkage disconnected.

D

Stepper motor failed or seized.

□ Electrical connections to stepper motor broken or

disconnected.

D Electrical leads to stepper motor are connected

wrong.

THROTTLE LINKAGE:

Check throttle linkage and carburetor throttle

shaft for binding, disconnected linkage. This type

of problem will usually result in the carburetor

throttle lever not moving. If the throttle lever does

. not move, the throttle may be stuck at a perma­

nently open throttle or a permanently closed throt­

tle as follows:

1. If the throttle is open, engine will start but will acceler­

ate quickly and uncontrollably. It will shut down when

speed exceeds about 4500 rpm.

2. If the throttle Is closed, engine will not accelerate under

load. After about 10 seconds, generator AC output will

terminate.

STEPPER MOTOR FAILED OR SEIZED:

The engine will start but stepper motor will not

turn. If an open throttle condition exists, either of

the following might occur:

1. Engine may accelerate and shut down at 4500 rpm.

2. Engine may shut down after 15 seconds due to an

overvoltage condition.

If throttle is closed, engine will be unable to

accelerate under load and AC output will be lost

after 10 seconds.

A failed stepper motor may also turn erratically.

If this Is the case, engine speed and AC output

voltage will be erratic under constant load.

ELECTRICAL CONNECTIONS BROKEN:

If one or more of the electrical connections to the

stepper motor are broken or disconnected, either

of the following might occur:

1. The stepper motor may not turn at all.

2. The stepper motor may turn erratically.

If the stepper motor does not turn, symptoms will

be the same as for a failed or seized stepper motor.

LEADS CONNECTED WRONG:

Incorrectly connected electrical leads to the

stepper motor can result In any one of the follow­

ing:

1. Stepper motor may not turn at all.

2. Stepper motor may turn erratically.

3. Stepper motor may turn backwards.

If the stepper motor does not turn, engine will start and

the following may occur:

1. If throttle Is open, engine will accelerate and shut down

when speed reaches 4500 rpm or after 15 seconds due

to overvoltage condition.

2. If throttle Is closed, generator AC output will terminate.

If the stepper motor turns erratically, engine speed and

AC output voltage will be erratic under a constant load.

The AC output will not terminate.

If the stepper motor Is turning backwards, engine will

accelerate and shut down at 4500 rpm.

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