| | WIRES | |
|  | Wires | Represents a conductor that conducts electrical current. Also called a power line or electric line or wire. | |
|  | Connected Wires | Represents the connection of two conductors. Dot shows the junction point. | |
| 
| Unconnected Wires | Represents
two unconnected wires/conductors. Any of the two methods can be
followed. Drawing two lines perpendicularly is an older method of
representing unconnected wires. | |
|  | Input Bus Line | Represents a bus for input or incoming data. | |
|  | Output Bus Line | Represents a bus for output or outgoing data. | |
|  | Terminal | Represents start or end point. | |
|  | Bus Line | Represents a number of conductors joined together to form a bus wire. | |
| | SWITCHES | |
|  | Push Button (Normally Open) | This switch is in ON state when the button is pressed otherwise it is in OFF state. | |
|  | Push Button (Normally Closed) | This switch is initially in ON state. This goes to OFF state when it is released. | |
|  | Spst Switch | Single
pole single throw is abbreviated as SPST. This allows the flow of
current when the switch is closed. This acts as ON/OFF switch. Poles
define the number of circuits it can be connected to and throws defines
the number of positions that a pole connects. | |
|  | Spdt Switch | Single
pole double throw is abbreviated as SPDT. This switch allows the
current to flow in any one of the two directions by adjusting its
position. | |
|  | Dpst Switch | Double pole single throw is abbreviated as DPST. This switch can drive two circuits at a time. | |
|  | Dpdt Switch | Double
pole double throw is the full form of DPDT. This can be defined as two
independent SPDT switches. This can connect the four circuits by
changing the position. | |
| | 3 Position Rotary or Multi Switch | This switch is operated by rotation. This has 3 positions. Often used in fan control, citizen band radio and tuning. | |
| | 5 Position Rotary or Multi Switch | This switch is operated by rotation. This has 5 positions. | |
|  | Relay Switch | This represents the relay switch. This can control the AC Loads using the DC voltage applied to the coil. | |
| | SOURCES | |
|  | AC Supply | This represents AC supply in the circuit. | |
|  | DC Supply | This represents the DC power supply. It applies DC supply to the circuit. | |
|  | Constant Current Source | Current
source is used to deliver or absorb electric current. The symbol
represents an independent current source which delivers constant
current. | |
|  | Controlled current Source | It is a dependent current source. Usually depends on other sources (voltage or current). | |
|  | Controlled Voltage Source | It is a dependent voltage source. Usually depends on other sources (voltage or current). | |
|  | Single Cell Battery | This provides supply to the circuit. | |
|  | Multi Cell Battery | Combination of multiple single cell batteries or a single large cell battery. The voltage is usually higher. | |
| | Wave Generators | |
|  | Sinusoidal Generator | Represents sine wave generator. | |
|  | Pulse Generator | Represents pulse or square wave generator. | |
|  | Triangular Wave | Represents triangular wave generator. | |
| | GROUND SYMBOLS | |
|  | Ground | It is equivalent to theoretical 0V and is used as zero potential reference. It is the potential of perfectly conducting earth. | |
|  | Signal Ground | It
is a reference point from which the signal is measured. There may be
several signal grounds in a circuit due to the voltage drops in a
circuit. | |
|  | Chassis Ground | Connected
to the chassis of the circuit. It is the frame or box in which the
circuit is built. It acts as a barrier between user and the circuit and
prevents electric shock. | |
| | RESISTOR SYMBOLS | |
|  | Fixed Resistor | It is a device that opposes the flow of current in a circuit. These two symbols are used to represent fixed resistor. | |
| | VARIABLE RESISTOR | |
|  | Potentiometer | It
is a three terminal variable resistor which acts as an adjustable
voltage divider. It is used in power supplies that produce varying DC
voltages like volume controls or joysticks. | |
|  | Rheostat | It
is a two terminal variable resistor. They are generally used to control
the current in the circuit. Generally used in tuning circuits and power
control applications like heaters, ovens etc | |
|  | Preset | It
is a mini variable resistor. It is also called Trimmer Resistor or Trim
Pot. The resistance is adjusted with rotary control present on top of
it with the help of a screw driver. They are used to adjust the
sensitivity of the circuit like temperature or light. | |
|  | Thermistor | It
is a temperature sensitive resistor. They are used in temperature
sensing, current limiting circuits, over-current protection circuits
etc. | |
|  | Varistor | It
is a Voltage Dependent Resistor. It has non-linear current-voltage
characteristics. Generally used in circuit protection from voltage
surges and excessive transient voltages. | |
|  | Magneto Resistor | They
are also called as Magnetic Dependent Resistors (MDR). The resistance
of magneto resistor varies according to the external magnetic field
strength. They are used in electronic compass, ferrous material
detection, position sensors etc. | |
|  | LDR | They
are also called as Photo Resistors. The resistance of LDR varies with
the intensity of the light incident on it. They are generally used in
light sensing applications. | |
|  | Tapped resistor | A wire-wound type fixed resistor with one or more terminals along its length. Generally used in voltage divider applications. | |
|  | Attenuator | It
is a device used to lower the power of a signal. They are made from
simple voltage dividers and hence can be classified in the family of the
resistors. | |
|  | Memristor | Memristor
is a device derived from the word memory resistor. The resistance of
memristor is varied according to the direction of flow of charge.
Memristors can be used in signal processing, logic/computation,
non-volatile memory etc. | |
| | CAPACITOR SYMBOLS | |
|  | Non Polarized Capacitor | Capacitor
stores the charge in the form of electrical energy. These two symbols
are used for non-polarized capacitor. Non-polarized capacitors are big
in size with small capacitance. They can be used in both AC and DC
circuits. | |
|  | Polarized Capacitor | Polarized
capacitors are small in size but have high capacitance. They are used
in DC circuits. They can be used as filters, for bypassing or passing
low frequency signals. | |
|  | Electrolytic Capacitor | Almost all electrolytic capacitors are polarized and hence used in DC circuits | |
|  | Feed through Capacitor | They provide low impedance path to ground for high frequency signals | |
|  | Variable Capacitor | The
capacitance of the variable capacitor can be adjusted by turning the
knob. They are widely used to adjust the frequency , that is for tuning. | |
| | INDUCTORS | | |
|  | Inductor | Inductor
stores the charge in the form of magnetic field. This contains a
conductor wound in the form of a coil. The current flowing in the coil
induces voltage by phenomena of faradays law of electromagnetic
induction. Here the coil is wound on non-magnetic forms like plastic or
ceramic. | |
|  | Iron Core Inductor | These
are used as substitutes to ferrite core inductors. Ferrite core or
Ferromagnetic inductors have high permeability and require air gap to
reduce it. Iron powdered core inductors have this air gap integrated. | |
|  | Ferrite Core Inductors | Core
material, in this type of inductors is made of ferrite material. These
are mostly used to suppress the interference of electromagnetic waves. | |
|  | Center Tapped Inductors | These are used in coupling of signals, | |
|  | Variable Inductors | Movable
ferrite magnetic core variable inductors are most common. The
inductance is varied by sliding the core in or out of the coil. | |
| | DIODES | |
|  | Pn Junction Diode | A
PN junction diode allows the current to flow only in forward bias
condition. These diodes can be used in clipping and clamping circuits ,
as rectifiers in dc circuits etc. | |
|  | Zener Diode | In
forward bias condition, it acts as normal diode and allows current. It
also allows current to flow in reverse bias condition when the voltage
reaches a certain break-down point. Generally used in voltage regulator
and over voltage protection circuits. | |
|  | Photodiode | Photodiode
detects the light energy and converts it into current or voltage by a
mechanism called photoelectric effect. These are used in CD players ,
Cameras etc. | |
|  | Led | Light
emitting diode is similar to PN junction diode but they emit energy in
the form of light instead of heat. These are mostly used in indication ,
lightening applications. | |
|  | Varactor Diode | Varactor
diode is called varicap or variable capacitance diode. The capacitance
of this diode varies according to the applied input voltage. This is
used in frequency controlled oscillators , frequency multipliers etc. | |
|  | Schottky Diode | The
symbol represents Schottky diode. It has low forward voltage drop and
it can switch rapidly. Used in voltage clamping, rectifiers, reverse
current and discharge protection | |
|  | Shockley Diode | This is a four layer diode. This had fast switching operation and hence is used in switching applications. | |
|  | Tunnel Diode | This
is also known as Esaki diode.It can switch very fastly and can perform
well in micro wave frequency range. This is used in oscillator circuits
and micro wave circuits. | |
|  | Thyristor | It
consists of four layers of alternating P and N materials. They act as
bistable switches and are used in circuits where high voltages and
currents are involved. | |
|  | Constant Current Diode | Also called as Current Limiting Diode or Current Regulating Diode. It limits the current to a specified maximum value. | |
|  | Laser Diode | The
laser diode is similar to light emitting diode. The active region is
formed in intrinsic region in PIN structure. Laser diodes find its
applications in laser printing, laser scanning etc. | |
| | TRANSISTOR SYMBOLS | |
|  | NPN | It
is made of combination of P-type semiconductor between two N-type
semiconductors. It is switched ON when the base-emitter junction is
forward biased. They are commonly used for amplifying and switching
applications. | |
|  | PNP | It
is made of combination of N-type semiconductor between two P-type
semiconductors. It is switched ON when the base-emitter junction is
reverse biased. These are used for amplifying and switching
applications. | |
| | JFET | Junction
field effect transistor is a unipolar device and is voltage controlled
device. The gate junction is reverse biased for its operation.It is used
as buffer amplifier, analog switch, oscillators etc. | |
|  | N- Channel JFET | N-channel
JFET is made by n-type silicon bars which form two PN junctions at the
side. Majority charge carriers here are electrons. | |
|  | P-Channel JFET | P-Channel JFET is made by p-type silicon bar which forms two PN junctions at the side. Majority charge carriers here are holes. | |
| | MOSFET | MOSFET
is similar to JFET but it is operated in enhancement mode also that is,
it increases the width of depletion layer. This can be operated in both
enhancement and depletion mode. They are used in SMPS, amplifiers ,
oscillators etc. | |
|  | Enhancement MOSFET | The
enhancement mode MOSFET has positive gate operation. It induces
negative charges into the n-channel and thus number of negative charges
increases, enhancing the channel conductivity. | |
|  | Depletion MOSFET | The depletion mode has negative gate operation. This decreases the width of the depletion layer. | |
|  | Phototransistor | The
photo transistor converts the light energy falling on it to its
corresponding electrical energy. This can be used in light sensing
applications.Base is left disconnected as light is used to enable the
flow of current. | |
|  | Photo Darlington | Photo Darlington Transistor is similar to phototransistor with very high gain and sensitivity | |
|  | Darlington Transistor | This
is a configuration of pair of transistors, which produces high current
gain. They are used in power regulators, output stages of audio
amplifiers, display drivers etc. | |
| | LOGIC GATES | |
|  | And Gate | This
is the basic gate and it implements logical conjunction. The output of
the AND gate is high, only if both the inputs are high otherwise both
are low. | |
|  | Or Gate | The OR gate implements logical disjunction.The output is high if any one of the inputs is high. | |
|  | Nand Gate | It
is complement of AND gate. The output is low only when both the inputs
are high, otherwise it is high. Any Boolean function can be implemented
using combination of NAND gates | |
|  | Nor Gate | NOR gate is a not OR gate. Output of this gate is high, if both the inputs are Low, otherwise it is High. | |
|  | Not Gate | Inverter or NOT gate implements logical negation. This gate inverts the input. | |
|  | Exor | This gate implements exclusive OR logic. The output of this gate is high ,if both the inputs are different. | |
|  | Exnor | This gate implements negation of EXOR logic. The output of this gate is high , only if the two inputs are identical. | |
|  | Buffer | It is an audio signaling device. Generally used in alarms, timers and for confirmation messages. | |
|  | Tri-State Buffer | Similar
to a normal buffer but with a control signal. In case of active high
buffer, it operates normally only when control signal is 1. In case of
active low buffer, it operates normally only when control signal is 0. | |
|  | Flip Flop | Flip flop is the also a memory element but this is a synchronous device. The figure below shows the basic D-flip-flop. | |
| | AMPLIFIERS | |
|  | Basic Amplifier | An
amplifier is a device that amplifies a relatively small input signal
i.e. it increases the power of the signal. They are used in
communication systems, audio devices etc | |
|  | Operational Amplifier | Operational
Amplifier (Op Amp) is a voltage amplifier with very high gain. The
input is differential. They are used in instrumentation devices, signal
processing, control systems etc | |
| | ANTENNA | | |
|  | Antenna | This
symbol belongs to Aerial or Antenna. It converts electrical power into
radio waves. It is used in wireless communication to transmit or receive
the signals. | |
|  | Loop Antenna | Loop
antenna is named after its loop like shape of wire or other electrical
conductor. They are used as receiving antennas in low frequency range. | |
|  | Dipole Antenna | It
is most widely used antenna. They consist of two bilaterally
symmetrical conductive elements. Generally used in set-top TV, shortwave
transmission and FM receivers. | |
| | TRANSFORMER | | |
|  | Transformer | Transformer
is the basic element that transfers energy in one circuit to the other
circuit through electromagnetic induction. They are generally used in
electric power applications to increase or decrease the voltage of AC
current. | |
|  | Iron Core | Uses
a piece of magnetic material as core. Generally Ferro magnetic metals
like iron are used. The core has high permeability and is used to
confine the magnetic field. | |
|  | Center Tapped | The
center tapped transformer is similar to a normal transformer except
that it has its secondary winding divided into two parts with same
number of turns in each part. This results in two individual output
voltages across two line ends. Used in rectifier circuits. | |
|  | Step Up Transformer | The
no. of turns in secondary winding is more than that of primary winding.
The output voltage is higher than input voltage. Significantly used in
inverters. | |
|  | Step Down Transformer | The
no. of turns in secondary winding is less than that of primary winding.
The output voltage is lesser than input voltage. It is widely used in
low power applications. | |
| | MISCELLANEOUS | |
|  | Buzzer | This is sound producing device. This produces buzz sound when the voltage is applied. | |
|  | Loud Speaker | This is also an audio device. The electrical signal is converted into sound signal here. | |
|  | Light Bulb | The symbol represents the light bulb. The bulb glows when required voltage is applied. | |
|  | Motor | This converts the electric energy to mechanical energy. | |
|  | Fuse | Symbol represents the fuse that protects the circuit from over current. | |
|  | Microphone | It converts sound signals to electrical signals. | |
|  | Crystal Oscillator | Used to generate clock signal of very precise frequency. | |
|  | ADC | Analog to Digital converter is used convert analog signals (usually voltage) to digital values. | |
|  | DAC | Digital to Analog converter is used to convert digital code to analog signals. | |
|  | Thermocouple | It is used to measure temperature. |
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