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Zener / Reference Diode Tutorial Includes:
Zener diode
Zener diode theory of operation
Zener diode datasheet specs
Zener diode circuits
Other diodes: Diode types
Zener diodes or voltage reference diodes are used in a variety of electronic circuit designs to enable them to provide a voltage reference. They can also be used in other circuits apart from just providing a voltage reference.
There are many circuits that use Zener diodes, ranging from very simple Zener diode circuits, up to far more complicated ones.
A few examples of Zener diode circuits are given below along with some circuit design hints and tips.
The most basic Zener diode circuit consist of a single Zener diode and a resistor. The Zener diode provides the reference voltage, but a series resistor must be in place to limit the current into the diode otherwise a large amount of current would flow through it and it could be destroyed.
The value of the resistor in the Zener diode circuit should be calculated to give the required value of current for the supply voltage used. Typically most low power leaded Zener diodes have a maximum power dissipation of 400 mW.
Ideally the circuit design should be configured to dissipate less than about half this value, but to operate correctly the current into the Zener diode should not fall below about 5 mA or they do not regulate correctly.
Basic voltage reference Zener diode circuitThere are many places where Zener diodes or voltage reference diodes can be used. Each electronic circuit design has its own aspects to the design, but it can be helpful to see how one circuit design is undertaken to give an insight into the techniques and practices used.
In this example a Zener diode / voltage reference diode circuit design is used to supply a regulated 5.1 Volt rail consuming 2 mA, from an input voltage supply of 12 volts.
The following easy steps can be used to calculate the resistor required:
This simple Zener diode circuit is widely used as an easy method of providing a voltage reference.
The very simple Zener diode circuit design providing the shunt regulator function as shown above is not particularly efficient and is not practicable for many higher current applications.
One solution is to utilise a Zener diode circuit that uses a transistor buffer that acts as a series pass transistor. The simple circuit design is shown below and here the transistor is used as an emitter follower.
Simple Zener diode voltage regulator circuitWhen utilising this Zener diode circuit design, the current required from the Zener resistor potential diver should be calculated. This is the emitter current from the transistor divided by the gain.
When choosing the Zener diode voltage, it should be remembered that the emitter voltage will be lower than the Zener voltage by the amount of the base-emitter voltage &#; about 0.6 volts for a silicon transistor.
Another form of Zener diode circuit design is an overvoltage protection circuit. These circuits are often used within power supply units to provide protection against a series pass transistor failing. If this happened, a very high voltage could be applied to the circuit being powered destroying the valuable circuitry.
The Zener diode protection circuit design uses the Zener diode in a slightly different way, detecting the breakdown current through the diode once a certain voltage has been reached.
While power supplies are normally reliable, the effects of the series pass transistor or FET failure can be catastrophic. If the series pass device fails as a short circuit, the full unregulated voltage would be placed onto the circuits using the regulated power. This could destroy all the chips being powered.
One solution is to use a crowbar circuit. When this form of circuit detects an overvoltage situation it fires an SCR. This quickly holds down the output voltage and in the instance shown, it blows a fuse that disconnects the input source power.
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Zener diode / SCR overvoltage protection circuitThis electronic circuit design operates by firing the SCR when the overvoltage is detected. The Zener diode is chosen to have a voltage above the normal operating voltage - sufficient margin not to fire under normal operating conditions, but small enough to allow current to flow quickly when the fault condition is detected.
Under normal operating conditions the output voltage is below the reverse voltage of the Zener diode and no current flows though it and the gate of the SCR is not fired.
However, if the voltage rises above the allowed voltage, i.e. the Zener diode breakdown voltage, the Zener diode will start to conduct, the SCR will fire and the fuse will be blow.
The Zener diode is a very flexible and useful circuit component. However, like any other electronics component, there are a few hints and tips which enable the best to be made of the Zener diode. A number are listed below.
Buffer the Zener diode circuit with an emitter or source follower circuit: To keep the voltage from the Zener diode or voltage reference diode as stable as possible, the current flowing through the Zener diode must be kept constant.
Any variations in current drawn by the load must be minimised as these will change the current through the Zener diode and cause slight voltage variations. The changes caused by the load can be minimised by using an emitter follower circuit stage to reduce the current taken from the Zener diode circuit and hence the variations it sees. This also has the advantage that smaller Zener diodes may be used.
Drive with constant current source for best stability: Another way of improving the Zener / voltage reference diode stability is to use a good constant current source to supply the diode int he electronic circuit design.
A simple circuit design using just a resistor is adequate for many applications, but a more effective current source can provide some improvements in the circuit performance as the current can be maintained almost regardless of any variations in supply rail.
Choose correct voltage for best stability: In applications and electronic circuit designs where stability with temperature changes is required, the Zener voltage reference diode should be chosen to have a voltage of around 5.5 volts.
The reason for this is that the temperature coefficients for the Zener effect and the impact ionisation effects are opposite and tend to cancel each other out around 5.5 volts where the two effects are both exhibited together.
The nearest preferred value is 5.6 volts although 5.1 volts is another popular value in view of its proximity to 5 volts required for some logic families. Where different levels of voltage are required, the 5.6 volt Zener can be used and the surrounding electronics can be used to transfer this to the required output value.
Ensure sufficient current for reverse breakdown: It is necessary to ensure that sufficient current is passed through the diode in the electronic circuit design to ensure that it remains in reverse breakdown condition. If there is insufficient current, then the device will not operate correctly.
For a typical 400 mW device a current of around 5 mA must be maintained. For exact values of minimum current, the datasheet for the particular device and voltage should be consulted. If this minimum current is not supplied then the diode will not conduct properly and the whole circuit will not operate.
Ensure maximum limits of current are not exceeded for the Zener diode: While it is necessary to ensure sufficient current is passed through the Zener diode, the maximum limits must not be exceeded. This can be a bit of a balancing act in some circuits as variations in load current will cause the Zener diode current to vary.
Care should be taken not to exceed the maximum current or the maximum power dissipation (Zener voltage x Zener diode current). If this appears to be a problem, an emitter follower circuit can be used to buffer the Zener diode and increase the current capability.
Zener diodes are very easy to use and as a result there is a wide variety of different Zener diode circuit designs. When used with a few precautions, they operate well, but occasionally they can cause a few issues, but following the hints and tips mentioned above should help avoid most issues..
Zener diode / voltage reference diodes are used within a variety of different electronic circuit designs. They are often found in various forms of power supply circuit where they can provide good service and at a very low cost. Whether surface mount devices or leaded, these electronic components are low cost and easy to obtain from virtually all electronic component distributors and stockists.
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