7N9475 BONNET-OIL COOLER Caterpillar parts
527, D5H, D5H XL, D5HTSK II
Rating:
Alternative (cross code) number:
CA7N9475
7N-9475
7N9475
CA7N9475
7N-9475
7N9475
Weight: 4 pounds 2 kg.
TRACK SKIDDER, TRACK-TYPE TRACTOR,
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This information for suppliers only!
2019-05-15
2019-05-15
Compatible equipment models: 7N9475:
Information:
Testing Diodes
When a diode is functioning properly in a circuit, the diode acts as a large voltage drop in one direction, and as a very small voltage drop in the other. Unfortunately, testing diodes is not always this simple. In fact, there are four possible ways in which you can test diodes:
Take the diode out of the circuit. Sometimes this is not possible.
If the diode is in a series circuit, the diode can be tested with the circuit power off.
If the diode is in a series circuit, the diode can be tested with the power on. For a typical silicon diode, the forward biased voltage drop should be approximately 0.6 volts.
If the diode is in a parallel circuit, the diode must be tested with an analog meter, not with a digital meter.TRANSISTORS
A diode is only one type of semiconductor. By combining several kinds of semiconductor material, you can create transistors. Like diodes, transistors control current flow. Transistors can perform practically all the functions that were once performed by vacuum tubes, but in much less space and without creating as much heat. Transistors are used in many applications, including radios, electronic control modules and other solid state switches.Transistor Types
There are many kinds of transistors. Transistors can be divided into two major groups: bipolar and unipolar (also called Field Effect Transistors, or FETs). While there are several differences between the two types, the most important difference is this:
Bipolar transistors vary current to control voltage.
FET transistors vary voltage to control current.Bipolar transistors are more common in Caterpillar electrical circuits. Transistor Construction
Illustration 11 g01072621
Like diodes, transistors contain a combination of N type and P type material. However, transistors contain three materials instead of two. The three materials are arranged so that N type and P type materials alternate (either as an NPN or a PNP group). This means that diodes have two leads while transistors have three. Illustration 11 is a symbolic representation of transistor construction.Emitter, Base, and Collector
In Illustration 11, the material on the left is called the emitter. The material that is sandwiched in the middle is the base. The material on the right is the collector. The symbols on the top of Illustration 11 are the schematic symbols for a transistor. The arrow indicates current flow direction this is conventional theory, and is always on the emitter. The arrow points in a different direction depending on whether the transistor is PNP or NPN.FETs also have three sections. These sections are referred to as the gate, the source, and the drain .
The gate approximates the function of the base.
The source is similar to the emitter.
The drain is similar to the collector.Basic Function
A transistor works by using the base to control the current flow between the emitter and the collector. When the transistor is turned ON, current can flow in the direction of the arrow only. When the transistor is OFF, current cannot flow in either direction. Base Paths
It is important to realize that the base leg of a bipolar transistor controls
When a diode is functioning properly in a circuit, the diode acts as a large voltage drop in one direction, and as a very small voltage drop in the other. Unfortunately, testing diodes is not always this simple. In fact, there are four possible ways in which you can test diodes:
Take the diode out of the circuit. Sometimes this is not possible.
If the diode is in a series circuit, the diode can be tested with the circuit power off.
If the diode is in a series circuit, the diode can be tested with the power on. For a typical silicon diode, the forward biased voltage drop should be approximately 0.6 volts.
If the diode is in a parallel circuit, the diode must be tested with an analog meter, not with a digital meter.TRANSISTORS
A diode is only one type of semiconductor. By combining several kinds of semiconductor material, you can create transistors. Like diodes, transistors control current flow. Transistors can perform practically all the functions that were once performed by vacuum tubes, but in much less space and without creating as much heat. Transistors are used in many applications, including radios, electronic control modules and other solid state switches.Transistor Types
There are many kinds of transistors. Transistors can be divided into two major groups: bipolar and unipolar (also called Field Effect Transistors, or FETs). While there are several differences between the two types, the most important difference is this:
Bipolar transistors vary current to control voltage.
FET transistors vary voltage to control current.Bipolar transistors are more common in Caterpillar electrical circuits. Transistor Construction
Illustration 11 g01072621
Like diodes, transistors contain a combination of N type and P type material. However, transistors contain three materials instead of two. The three materials are arranged so that N type and P type materials alternate (either as an NPN or a PNP group). This means that diodes have two leads while transistors have three. Illustration 11 is a symbolic representation of transistor construction.Emitter, Base, and Collector
In Illustration 11, the material on the left is called the emitter. The material that is sandwiched in the middle is the base. The material on the right is the collector. The symbols on the top of Illustration 11 are the schematic symbols for a transistor. The arrow indicates current flow direction this is conventional theory, and is always on the emitter. The arrow points in a different direction depending on whether the transistor is PNP or NPN.FETs also have three sections. These sections are referred to as the gate, the source, and the drain .
The gate approximates the function of the base.
The source is similar to the emitter.
The drain is similar to the collector.Basic Function
A transistor works by using the base to control the current flow between the emitter and the collector. When the transistor is turned ON, current can flow in the direction of the arrow only. When the transistor is OFF, current cannot flow in either direction. Base Paths
It is important to realize that the base leg of a bipolar transistor controls
Caterpillar parts catalog:
Parts bonnet Caterpillar catalog:
1W9171
BONNET-VALVE
120G, 12G, 12H, 12H ES, 12H NA, 130G, 140G, 140H, 140H ES, 140H NA, 143H, 14G, 14H NA, 160G, 160H, 160H ES, 160H NA, 163H NA, 215, 235C, 3204, 330, 330 L, 3304, 3304B, 3306, 3306B, 330B L, 3408, 3408C...
120G, 12G, 12H, 12H ES, 12H NA, 130G, 140G, 140H, 140H ES, 140H NA, 143H, 14G, 14H NA, 160G, 160H, 160H ES, 160H NA, 163H NA, 215, 235C, 3204, 330, 330 L, 3304, 3304B, 3306, 3306B, 330B L, 3408, 3408C...
7N9477
BONNET
527, D5H, D5H XL, D5HTSK II
527, D5H, D5H XL, D5HTSK II
7N9477
BONNET
527, D5H, D5H XL, D5HTSK II
527, D5H, D5H XL, D5HTSK II
4W9887
BONNET-OUTLET
578, 583R, 587R, D8N, D8R, D8R II
578, 583R, 587R, D8N, D8R, D8R II
2020464
BONNET
578, 583R, 587R, D8N, D8R, D8R II
578, 583R, 587R, D8N, D8R, D8R II
8N4535
BONNET
515, 525, 589, D8L
515, 525, 589, D8L
7N6656
BONNET-TORQUE CONVERTER
589, D8L
589, D8L
2381117
BONNET
627H, 627K LRC, D6R, D6R II, D6R III, D6R STD, D6T, D7E, D7R XR
627H, 627K LRC, D6R, D6R II, D6R III, D6R STD, D6T, D7E, D7R XR
7W3382
BONNET
578, 583R, D10N, D10R, D9L
578, 583R, D10N, D10R, D9L
7N3512
BONNET-OIL COOLER
D6D, D6E, D6G, D6G2 LGP, D6G2 XL
D6D, D6E, D6G, D6G2 LGP, D6G2 XL
7N3340
BONNET-OIL COOLER
D6D, D6E, D6G, D6G2 LGP, D6G2 XL
D6D, D6E, D6G, D6G2 LGP, D6G2 XL
1038924
BONNET
D4E SR, D6E SR
D4E SR, D6E SR
5Y2409
BONNET
D6D SR, D6E SR
D6D SR, D6E SR