Toasters: Difference between revisions

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There are several types of timing mechanism.
There are several types of timing mechanism.


Some toasters have a clockwork timing mechanism, similar to an old fashioned kitchen timer. In others it's electronic.
Some toasters have a clockwork timing mechanism, similar to an old fashioned kitchen timer. In others it's electronic. There are different types of electronic timer.


Again, there are different types of electronic timer. The older ones are simpler, using off-the-shelf electronic components. One such type uses an oscillator and a binary counter (an [[Active_components#Integrated_Circuits|integrated circuit]]) which counts the oscillations and terminates the timing cycle when a certain number has been reached. A control adjusts the frequency of the oscillator and hence the toasting time.
The older ones use common off-the-shelf electronic components. One such type uses an oscillator and a binary counter (an [[Active_components#Integrated_Circuits|integrated circuit]]) which counts the oscillations and terminates the timing cycle when the counter reaches its maximum value. The time this takes depends on the oscillator frequency. A control adjusts this frequency and hence the toasting time. A commonly used binary counter is a 16 pin integrated circuit which will be marked 4060 (with prefix and/or suffix depending on the manufacturer). Replacements are available on eBay. However, you should also test any transistors on the same circuit board as one of these could equally well have failed.


More modern toasters use a microcontroller to perform the timing function, interfacing to a set of push buttons and LEDs or other controls with which to set the desired toasting time.
More modern toasters use a microcontroller to perform the timing function, interfacing to a set of push buttons and LEDs or other controls with which to set the desired toasting time. Even though the microcontroller might be a standard type, it's very unlikely that you would be able to program a replacement with the right firmware.


Electronic timers of whatever type require a low voltage [[AC_and_DC|DC]] supply in order to operate. This is often supplied from a third connection to the element. If this is placed, say, a twentieth of the way along the element it will tap off a twentieth of the mains voltage, which would be 240 / 20 = 12V. It must still be rectified, smoothed and (usually) regulated before it can be used by the electronic circuits (see [[Power supplies]] for further details).
Electronic timers of whatever type require a low voltage [[AC_and_DC|DC]] supply in order to operate. This is often supplied from a third connection to the element. If this is placed, say, a twentieth of the way along the element it will tap off a twentieth of the mains voltage, which would be 240 / 20 = 12V. It must still be rectified, smoothed and (usually) regulated before it can be used by the electronic circuits (see [[Power supplies]] for further details).

Revision as of 13:45, 5 July 2017

This page covers diagnosis and repair of pop-up toasters.

Summary

A toaster can give many years of service but modern ones are not always as reliable as you might wish. Spare parts are available for some of the better quality brands, but on others it may still be possible to repair simple problems.

Safety Warnings

Warning03.png
Live mains may be exposed when the cover is off. Take the usual precautions, in particular:
  • Double-check it's not still plugged in when you open it
  • Never poke anything into the toast slots if it's plugged in
  • Parts may remain very hot for a while after switching off.

Principles of operation

All pop-up toasters have 2 or more slots into which the toast is lowered by pressing down a lever against a spring. This action switches on the electrical heater elements positioned either side of the toast slots.

In addition, there is a timing mechanism and a means of popping up the bread. These vary.

In the oldest toasters the lever is held down at the bottom of its travel by a catch. A bimetallic strip positioned close to the toast heats up along with the toast and bends as it does so, due to the different expansion coefficients of the two metals it's made of. When it reaches a certain temperature it closes an electrical contact, energising a small electromagnet which releases the catch. This causes the spring to pop the toast up.

In more modern toasters there is no catch or bimetallic strip, instead the lever is held down against the spring by an electromagnet, somewhat larger than the one in the previous type of toaster. This is energised along with the element, but the current is interrupted after a pre-set time by a timing mechanism causing the toast to pop up.

There are several types of timing mechanism.

Some toasters have a clockwork timing mechanism, similar to an old fashioned kitchen timer. In others it's electronic. There are different types of electronic timer.

The older ones use common off-the-shelf electronic components. One such type uses an oscillator and a binary counter (an integrated circuit) which counts the oscillations and terminates the timing cycle when the counter reaches its maximum value. The time this takes depends on the oscillator frequency. A control adjusts this frequency and hence the toasting time. A commonly used binary counter is a 16 pin integrated circuit which will be marked 4060 (with prefix and/or suffix depending on the manufacturer). Replacements are available on eBay. However, you should also test any transistors on the same circuit board as one of these could equally well have failed.

More modern toasters use a microcontroller to perform the timing function, interfacing to a set of push buttons and LEDs or other controls with which to set the desired toasting time. Even though the microcontroller might be a standard type, it's very unlikely that you would be able to program a replacement with the right firmware.

Electronic timers of whatever type require a low voltage DC supply in order to operate. This is often supplied from a third connection to the element. If this is placed, say, a twentieth of the way along the element it will tap off a twentieth of the mains voltage, which would be 240 / 20 = 12V. It must still be rectified, smoothed and (usually) regulated before it can be used by the electronic circuits (see Power supplies for further details).

Disassembly

Before starting, empty the crumbs from the crumb tray in the bottom of the toaster, preferably outside - the birds will enjoy them.

The cover is usually secured by screws in the bottom of the toaster. You will probably have to remove the lever and a control knob before you can lift the cover off. As you do so, take care of the timer and pop-up mechanisms and wires which you might strain in the process. If any further disassembly is required it should now be possible to see how to do it.

Diagnosis

Preliminaries

If the toaster is completely dead, check the fuse in the plug before going any further. If it has blown, consider whether this might be due to a fault which could make the toaster dangerous.

The first thing to check after opening the toaster is whether there are any crumbs or fragments of bread interfering with the mechanism. A good clean will do no harm even if this isn't the problem, but be careful around the element, which you could break.

A tiny drop or smear of oil on the lever mechanism can make it operate more smoothly, but take care to wipe up any excess.

Toast won't pop up

Sometimes there may be a problem with the pop-up spring. If it's broken, dislodged or something is interfering with its movement you will be unable to feel its tension as you push the lever down, and it probably won't pop up. These are purely mechanical problems. In some older toasters the spring consists of a coiled up phosphor-bronze strip which uncoils as the lever is pressed down, and can snap with age. A spare spring may be obtainable.

Toast won't stay down

A common fault is that the lever won't stay down. In the older type of toaster where it's held down by a catch, again, this will be a mechanical problem. In a more modern toaster, it's likely to be a problem with the electronic timer.

Timer problems

Problems with an electronic timer are not easily fixed unless you have the luxury of an identical toaster with a different fault from which you can take a good timer. If there are obvious signs of a burnt out component you may be able to replace it, otherwise you will need an understanding of electronics to get any further.

First, you could check the components generating the low voltage DC for the electronics. Older electronic controls may use standard components. Look for any integrated circuits with type numbers which can be identified by an Internet search. Replacements for counter-timer integrated circuits such as CD4060B or CD4536B should be obtainable. In the case of a microcontroller-based timer, even if you could find a replacement it's extremely unlikely that you could obtain the firmware to program it with.

Element doesn't get hot

If the handle stays down but the element doesn't get hot then you probably have a broken element. If the break isn't obvious, follow the wiring and check the element or each section of it with a multimeter on an ohms range. The total resistance for a 750W toaster should be around 75 Ohms when hot, though less when cold. Replacement elements are available for some of the higher quality brands.

External links

http://home.howstuffworks.com/toaster.htm