Introduction, Ignition cage assembly, Ignition sensor – Generac Power Systems NP-40G User Manual

Section 6.4- ENGINE IGNITION SYSTEM

Introduction

The engine ignition system consists of the fol*

lowing major components:

□ Ignition Cage Assembly.
□ Ignition Sensor Assembly.
□ Ignition Module (IM).
□ Ignition Coll (1C).
□ Spark Plug (SP1).

Ignition Cage Assembly

An IGNITION CAGE ASSEMBLY is factory In­

stalled onto the permanent magnet rotor hub. Two

magnets are installed In the cage as shown In

Figure 1 (50* apart), so that the north pole of one

magnet faces away from the cage outer periphery

and the north pole of the other mag net faces toward

the cage outer periphery. A special fixture Is used

to install the cage onto the rotor hub so that the

center line of the first magnet Is 68* away from the

Rotor Hub mounting hole as shown.

NOTE: Placement of the magnets on the Rotor Hub

at the exact position stated above results In an

Ignition timing of 29’ BTDC.

The Ignition Cage assembly cannot be replaced.

The entire Rotor Hub must be replaced.

Replacement Rotor Hubs will include a factory

installed Ignition Cage assembly, and Magnetic

Housing Assembly.

NOTE: Also refer to “Permanent Magnet Rotor" In

Section 1^ (Page 1.2-1).

Figure 1. Ignition Cage Assembly

Ignition Sensor

The Ignition Sensor is retained to the AC

e

enerator’s Stator Adapter by means of two M4-

.70 X 8mm screws and lockwashers. The Sensor

housing houses a circuit board. The entire housing

cavity is filled with potting material.

As the generator’s Permanent Magnet Rotor

turns during operation, magnets on the Ignition

Cage rotate past the Ignition Sensor to induce a

timed low voltage pulse Into the Sensor. This volt­

age pulse Is delivered to an Ignition Module and

serves as a timing pulse for the Module.

See Figure 3. The Sensor circuit board mounts

solid state components which are sensitive to mag­

netism. Magnets In the Ignition Cage rotate past the

Sensor, causing the base of a transistor to be

"pulsed". The transistor acts much like a "switch"

or a set of "contact points". Pulsing the transistor

base causes the "switch" to close and connect the

"OUT" lead to the "GND" lead. This triggers the

Ignition Module to delivers primary Ignition current

to the Ignition Coll at timed Intervals.

Figure 3. Ignition Sensor Schematic

ignition Moduie

While cranking and running, battery voltage Is

delivered to the Ignition Module via Wire 14 from

the Engine Controller circuit board. The Module will

deliver this battery voltage to the Ignition Coll

based on the "timing" signal it receives from the

Ignition Sensor.

The Ignition Module Is retained In the generator

control panel by two capscrews.

Page 6.4-1