It’s fascinating, helpful, and enjoyable that fundamental digital topologies typically prove to have utility in a number of and surprisingly completely different purposes. Determine 1 reveals an instance of such a circuit. It’s a cost pump voltage inverter circuit initially revealed in A easy, correct, and environment friendly cost pump voltage inverter for $1.
Determine 1 Primary voltage inverter circuit scaled for effectivity at 100 kHz and several other milliamps of present output.
Configured thusly for the voltage inverter utility, the pump is easy and low-cost. It attracts solely about 1µA per kHz (unloaded) from the 5-V rail.
Wow the engineering world together with your distinctive design: Design Concepts Submission Information
An fascinating variation outcomes if pump capacitor C2 is decreased by a number of orders of magnitude. This makes the present pumped immediately proportional to oscillator frequency: Ipump = 5*C2*Fpump
Ranging from that concept, then including some easy discrete elements, our authentic inverter circuit turns into the core of an affordable, quick (1 MHz), low energy voltage to frequency converter. Determine 2 reveals how.
Determine 2 Modified voltage inverter turns into energy thrifty 1MHz VFC.
Enter present = Vin/R1 expenses C3 which causes transconductance amplifier Q1,Q2 to sink, growing present from Schmidt set off oscillator cap C1. This will increase U1c oscillator frequency and the present pumped by U1a,b and C2. It is because the pump present has detrimental polarity (keep in mind we began with a voltage inverter circuit); it completes a suggestions loop that repeatedly balances pump present to equal enter present:
Ipump = 5*C2*Fpump = Vin/R1
Fpump = Vin/(5*C2*R1) = Vin/(5*100pF*10,000) = 200kHz*Vin
Q3 supplies the ramp reset pulse that initiates every oscillator cycle. R6 limits C2 discharge present to forestall driving U1 pin 1 substrate diodes into conduction, which may steal a fraction of Ipump and thus create nonlinearity. The ratio of R5/R3 is chosen to steadiness Q2/Q1 collector currents at Vin and Fpump equal zero, thus minimizing Vin zero offset. Consequently, linearity and nil offset errors are lower than 1% of full-scale.
Nonetheless, this leaves open the opportunity of unacceptable scale issue error if the +5-logic energy rail isn’t correct sufficient.
What if we would like a precision voltage reference that’s unbiased of +5 instability? Determine 3 solutions that query.
Determine 3 U2 shunt reference stabilizes C2 cost to a +5 unbiased precision 2.50 V.
Including the reference does, nonetheless, improve components price by about half a buck and max energy consumption by about half a milliamp. These totals are nonetheless fairly cheap costs to pay for correct and quick conversions. Sure, for a VFC, 10-bit decision in a millisecond is fairly quick.
Observe that R1 will be chosen to implement nearly any desired Vin full-scale issue.
Stephen Woodward’s relationship with EDN’s DI column goes again fairly a good distance. Over 100 submissions have been accepted since his first contribution again in 1974.
Associated Content material
- A easy, correct, and environment friendly cost pump voltage inverter for $1 (in singles)
- Single provide 200kHz VFC with bipolar differential inputs
- New VFC makes use of flip-flops as excessive velocity, precision analog switches
- Cheap VFC options good linearity and dynamic vary
- Flip detrimental regulator “upside-down” to create bipolar provide from single supply
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The put up Voltage inverter design concept transmogrifies right into a 1MHz VFC appeared first on EDN.
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