6/28/99 .il.us



|4/24/17 |DATE |Technology |DIVISION |

|X |REQUIRED COURSE | |NEW COURSE |

| |ELECTIVE COURSE |X |REVISION |

LAKE LAND COLLEGE

Course Information Form

|COURSE NUMBER |EET052 |TITLE |Solid State Circuits |

|SEM CR HRS |4 |LT HRS |3 |LAB HRS |2 |SOE HRS | |ECH |4.5 |

|COURSE PCS# | |(Assigned by Administration) |

Prerequisites: EET050 – Electric Circuits I

Catalog Description (40 Word Limit):

Study of basic solid state devices and associated circuits. Devices included will be general purpose diodes, zener diodes, bipolar junction transistors, field effect transistors. Integrated circuits will be introduced. Circuit applications will include rectifiers, transistors, switching circuits, and linear amplifiers.

List the Major Course Segments (Units) Lt Hrs Lab Hrs

Semiconductor Diodes 5 3

Basic Diode Circuits 5 4

Bipolar Junction Transistors (BJT)Biasing 5 5

BJT Amplifiers 5 3

Field-Effect Transistors (FETs) 5 3

Operational Amplifiers 5 3

Filters and Amplifiers 5 3

Voltage Regulators 5 3

Thyristors 5 3

|EVALUATION: |Quizzes |X |Exams |X |Oral Pres | |Papers | |

| |Lab Work |X |Projects | |Comp Final | |Other | |

Textbook: Title: Solid State Devices and Systems

Author: Gary J. Rockis

Publisher: American Technical Publishers

Volume/Edition: 4th

Copyright Date: 2012

Major Course Segment Hours Learning Outcomes

The student will be able to . . .

|Semiconductor Diodes |5/3 |Compare and contrast n-type and p-type materials. Describe what happens when a pn |

| | |junction is formed. Sketch and explain operation of ½ wave, full wave rectifiers and |

| | |to calculate rectifier outputs given inputs |

|Basic Diode Circuits |5/4 |Describe the operation of a half, full, and bridge rectifier. Explain filtering and |

| | |clipping. Analyze the operation of doubler circuits |

|Bipolar Junction Transistors |5/5 |Describe the characteristics of the cutoff, saturation, and active regions of |

| | |operation. Contrast typical pnp and npn biasing circuits. |

|BJT Amplifiers |5/3 |Discuss the concept of “gain”. Draw a general model of a voltage amplifier. |

| | |Calculate for an ideal voltage amplifier. List the advantages of using a darlington |

| | |style transistor in an amplifier |

|Field Effect Transistors |5/3 |Explain the relationship among drain, source, and gate voltages. Determine the range|

| | |of Q-point values. Describe and analyze the ac operation of a common-drain and |

| | |common-gate amplifier |

|Operational Amplifiers |5/3 |Identify the input, output, and supply pins of a given op-amp. Describe the effects |

| | |of the input polarities, supply voltages, and load resistance on the output. Analyze|

| | |the operation of an inverting and non-inverting op-amp. |

|Filters and Amplifiers | 5/3 |Compare and contrast the frequency-response characteristics of ideal and practical |

| | |tune amplifiers. Describe low-pass, high-pass, band-pass, and band-stop filter |

|Voltage Regulators |5/3 |List the purposes served by a voltage regulator. Define line and load regulation and |

| | |its units of measure. List the four parts of th3e basic switching regulator and |

| | |describe the function of each. |

|Thyristors |5/3 |Describe the construction of the silicon-controlled rectifier and the methods used to|

| | |trigger the device into conduction. Explain the differences between a Diac and a |

| | |Triac. |

Course Outcomes: At the successful completion of this course, students will be able to:

• Explain the properties of semiconductor materials.

• Describe the connection of a diode for proper biasing.

• List the basic elements of a power supply.

• Describe the semiconductor structure of a transistor and explain how it functions.

• Define OP-AMP, and perform voltage gain calculations.

• Construct and test a BJT amplifier.

................
................

In order to avoid copyright disputes, this page is only a partial summary.

Google Online Preview   Download