We've been working hard to bring you a conundrum* of new protoboards and other handy items to go with them (*conundrum - a collective noun used to describe massive amounts of protoboards inhabiting our shelves). This issue of Friday new products features roughly half of the whole selection we offer, which can cover pretty much […]
Circuit: Shok
Dave Hrynkiw
July 12, 2007
You want a simple Photovore? This very tidy design by Solarbotics' own Grant McKee is based on a technique developed by Mark Tilden - Shok architecture:
Here's video of the test robots being tuned as a 177kB Windows Media Format (WMV) file or as a 168kB RealMedia (RM) file.
ShokPopper V1.0 (click for circuit diagram) - GrantM Aug 2001
Theory of operation:
"Shok" architecture is a technique pioneered by Mark Tilden describing controlled state changes of Bicore style circuits via chip power or enable toggling. When a Bicore circuit is powered on, it will resume a state opposite to what it was when it was powered off, this effect can either be duplicated by pulsing the enable line or by pulsing power to the chip itself. This is called "shoking" the Bicore. The power-on state can also be pre-determined by biasing the voltage across the Bicore capacitors. A photodiode attached directly across the Bicore charge capacitor will pre-bias the shoked output. The addition of tactile sensors is easily implemented by attaching a switch from the input of the Bicore to +Vdd. When the switch is closed, it forces that side high, presetting the state of the Bicore on the next pulse cycle.
Probably one of the simplest photovore circuits to date, the core circuit consists of a 6 part count and a solar-engine. Either 74AC240 or 74HCT240 will work but we recommend using the AC series for better output drive current. The ShokPopper will not work under battery power unless the enable line is pulsed.
Solar Engine to use with Shok:
The best solar-engine to use is the Miller engine. For the ShokPopper Photovore we used a Miller engine consisting of:
- CP3300uf cap
- 1381Q
- CP1µf timer cap (0.47µf will work fine as well)
- 2N2222 Transistor
- SC3733 Solarcell
- D1 1N914 Diode
The Bicore Circuit Consists of:
- 74AC240 Octal Buffer Chip
- TR100k Trimpot
- 2 x 0.22µF Capacitors
- 2 x IR1 Infrared Sensors
- 2 x RM1 Motors
- TACT2 Spring Sensor Kit (Optional)
The Miller engine switches the ground line of the circuit.
The theory of operating is very similar to that of the shok popper except that the head now only uses one motor, the photo head does not "lock" on but will continually seek for the brightest source of light. Nice effect if you want a continually seeking, dynamic device on a stationary base.
- 74AC240 Octal buffer chip
- 4 x CP0.1µF capacitors
- 100k resistor
- 2 x 47k resistors
MORE POSTS
Robotgames registration is open
The Western Calgary Robot Games is fast approaching. It's held here in our own hometown of Calgary Alberta, and I can tell you that after visiting most of the major competitions on the west coast of North America, it's one of the most prize-generous! The registration page is now open, so get registered and come […]
Solarbotics has been operating for more than 25 years, bringing electronics know-how and supplies to both the electronics professional and hobbyist. We'll be happy to help you too!
Solarbotics, Ltd. is not responsible for misprints or errors on product prices or information. For more information, please see our Terms and Conditions.
Warning: This product contains chemicals known to the State of California to cause cancer and birth defects or other reproductive harm.
Please visit www.P65Warnings.ca.gov for more information. This item was manufactured prior to August 31, 2018.