Notes:
Simple to build, simple to make, nothing too complicated here. However you must use
the CMOS type 555 timer designated the 7555, a normal 555 timer will not work here
due to the resistor values. Also a low leakage type capacitor must be used for C1, and I
would strongly suggest a Tantalum Bead type. Switch 3 adds an extra resistor in series to
the timing chain with each rotation, the timing period is defined as :-
Timing = 1.1 C1 x R1
Note that R1 has a value of 8.2M with S3 at position "a" and 49.2M at position "f". This
equates to just short of 300 seconds for each position of S3. C1 and R1 through R6 may be
changed for different timing periods. The output current from Pin 3 of the timer, is
amplified by Q1 and used to drive a relay. The relay contacts give physical and electrical
separation and may be used to switch circuits using higher current or voltage.
Alternatively if an audible or visual output is desired then the relay may be substituted for
a buzzer or LED.
Breadboard Layout:
As a first realisation I made a layout on breadboard. The rotary switch, relay and driver
transistor were omitted, the parts being replaced by a single red LED and 2.7k resistor
(see below).
Simple to build, simple to make, nothing too complicated here. However you must use
the CMOS type 555 timer designated the 7555, a normal 555 timer will not work here
due to the resistor values. Also a low leakage type capacitor must be used for C1, and I
would strongly suggest a Tantalum Bead type. Switch 3 adds an extra resistor in series to
the timing chain with each rotation, the timing period is defined as :-
Timing = 1.1 C1 x R1
Note that R1 has a value of 8.2M with S3 at position "a" and 49.2M at position "f". This
equates to just short of 300 seconds for each position of S3. C1 and R1 through R6 may be
changed for different timing periods. The output current from Pin 3 of the timer, is
amplified by Q1 and used to drive a relay. The relay contacts give physical and electrical
separation and may be used to switch circuits using higher current or voltage.
Alternatively if an audible or visual output is desired then the relay may be substituted for
a buzzer or LED.
Breadboard Layout:
As a first realisation I made a layout on breadboard. The rotary switch, relay and driver
transistor were omitted, the parts being replaced by a single red LED and 2.7k resistor
(see below).
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