Organize and Share your Electronics the way you want. Sign-Up for a free account now. It takes only 30 seconds!

Steve Bolt’s 4-transistor H-bridge

Steve Bolt’s 4-transistor H-bridge

Steve Bolt came up with an interesting smokeless 4-transistor H-bridge variant, i.e. no combination of inputs can cause the bridge to self-destruct.

When I first started tinkering with this circuit, I made the assumption that the inverters pictured in Steve’s diagram were not intrinsic parts of the bridge, but instead were examples of the outputs coming from the driving circuit. This is very, very wrong. If you don’t include inverters (or, at least buffers) on the control inputs, you now have to take great care to avoid having the bridge influence the circuit that’s driving it.

You should bear the following things in mind with this design:

2N2905 and 2N2219 transistors are no longer being produced; I use 2N2907 and 2N2222 transistors in this circuit, with good results.

You absolutely must use one bias resistor per transistor; I attempted to simplify the circuit by connecting the respective transistors’ bases (so each pair of transistors could “share” a resistor) — this made for a circuit that was simpler, much easier to freeform, and completely non-functional.

This efficiency of this design is driven by 2 things — the efficiency of the motor it’s driving, and the size of the bias resistors. Just to make life interesting, these things are interrelated (more on this later).

This bridge is “smokeable” — but only if power is supplied to the bridge while the control inputs are allowed to “float” (easy thing to avoid in your circuit design).

Article by Steve Bolt at http://www.solarbotics.net/library/circuits/default.htm

Visit Here for more.







 

More Articles to Read

DECA MAX®10 FPGA Evaluation Kit
DECA MAX®10 FPGA Evaluation Kit
An Arduino laser pinball machine
An Arduino laser pinball machine
CTCSS fingerprinting: A method for transmitter identification
CTCSS fingerprinting: A method for transmitter identification
TI DLP® Pico™ Technology for Aftermarket Head-up Displays
TI DLP® Pico™ Technology for Aftermarket Head-up Displays
Brute force computation for cheap log digital potentiometer
Brute force computation for cheap log digital potentiometer
Smart "Homer"
Smart "Homer"
A DIY Segway-style vehicle
A DIY Segway-style vehicle
Superbeta transistors inside: Die photos and analysis of the LM108 op amp
Superbeta transistors inside: Die photos and analysis of the LM108 op amp
Peeqo is a desktop bot that communicates through GIFs
Peeqo is a desktop bot that communicates through GIFs
Using a Programmable Input Multiplier to Minimize Integer Boundary Spurs
Using a Programmable Input Multiplier to Minimize Integer Boundary Spurs

Top


Shares