Hello, help pls! I am looking for the datasheet for my ice shaver IS200 which recently got broken down.
History:
The blender stopped working yesterday i brought it to a technician to fix it. It seems that the fuse have broken and so he reconnected the fuse (not replacing it but by soldering an extra wire connecting the 2 poles). When he switched it on, the ice shaver started giving out smoke and i can smell some plastic burning kind of smell. The technician said he can't fix it and returned the ice shaver to me. When i got home, i took everything apart and i saw a severely burnt resistor. I tried measuring the burnt resistor (using this method https://www.technotronic-dimensions.com/Identifying_Burned_Resistors.html) with my multimeter and i sum up to a total of 1k ohm. I replaced the burnt carbon film resistor with a metal film 1k resistor, and also replaced the fuse. When i switched it on, nothing happened. But when i flicked the switch to activate the ice shaver, the resistor started smoking!! I stopped immediately and unplugged it.
Given that (if I'm reading him correctly) the OP said the "engineer" attempted to repair the appliance not by replacing the fuse but by soldering a wire in place of the fuse, do you think "engineer" is an appropriate word?
Measuring a burnt resistor won't always give its value before the resistor was burnt, it could have been a 100R before it was damaged.
The value of components can change when they fail: a burnt resistor will probably read a higher value than a non-burnt resistor, an inductor with a shorted turn will have a lower inductance and lower Q, a bad capacitor will have a lower capacitance and higher ESR.
Given that (if I'm reading him correctly) the OP said the "engineer" attempted to repair the appliance not by replacing the fuse but by soldering a wire in place of the fuse, do you think "engineer" is an appropriate word?
Without knowing exactly what it was, it's hard to say - but I suspect it was some kind of fuse type device - for testing purposes (NOT for returning to the customer) it makes sense to short it out, so you can test if it had failed for no reason. If it had failed for no reason, you then replace it with the correct safety component - but doing so before you test it, just blows the safety component again (which may be fairly expensive).
Only in a very limited sense, and only for a fairly small range usually - although some multimeters have a capacitance measuring range, but it only measures the capacitance, it doesn't really test it.
Given that (if I'm reading him correctly) the OP said the "engineer" attempted to repair the appliance not by replacing the fuse but by soldering a wire in place of the fuse, do you think "engineer" is an appropriate word?
That sounds more like a sleazy technician trick. An engineer might do that just to see if the motor still ran or to try and locate a short (by letting it overheat and "sniffing" it out), but it does not sound complicated enough to warrant that technique.
Only in a very limited sense, and only for a fairly small range usually - although some multimeters have a capacitance measuring range, but it only measures the capacitance, it doesn't really test it.
Generally you don't, although you can check many electrolytics in circuit using an ESR meter.
Fault finding anything is mainly a matter of understanding how it works, from there you can (hopefully) work out what part of a circuit might cause it behave in the way it is. Randomly checking components is pretty well doomed to failure.