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{{sinecore_part_sm.png}}

SineCore Modulator

About the SineCore Modulator

The SineCore Modulator is based on a design by Barrie Gilbert from 1977. It uses a series of cascaded differential amplifiers to smoothly change the polarity of the output signal as the input voltage is increased. This became the basis for the AD639 "Universal Trigonemtric Function Converter" IC from Analog Devices, Inc. The SineCore Modulator can produce +/-720 degrees of a relatively low distortion sinewave. Over the first +/-90 degrees, the THD is around -80dB, making it very useful for triangle or sawtooth to sinewave conversion. If the amplitude of the input signal is modulated, the number of reversals increases, essentially acting as a quadruple wavefolder. When a sawtooth wave is applied, it can be summed with a DC offset to produce sinewave Phase Modulation (PM) with through-zero capability.

How to Use the SineCore Modulator

The module comes in a 14P Wide-DIP format. The pins are labeled 1 to 7 from top to bottom on 2 headers, J1 and J2. Don't ask me why its that way as compared to the conventional labeling of 1 to 14, as there is no good reason. The pins are as follows:

sinecore_part_sm.png

Pin

Function

J1

1

Positive input - base of modulator transistor

2

Shield - connect to ground if used

3

Shield - connect to ground if used

4

Alternate bias current control - emitters of modulator transistors

5

Negative input - base of modulator transistor

6

Negative outout - collectors of modulator transistors

7

Positive output - collectors of modulator transistors

J2

1

Bias current control - collector of reference transistor

2

Bias current control - base of reference transistor

3

Bias current control - base of output transistor

4

Bias current control - emitters of reference and output transistors

5

Width current control - supply voltage input

6

Width current control - base of output transistors

7

width current control - emitter of reference transistor

Over-voltage Protection

There is the risk of damage to the module if the Vbe of the modulator transistors are reverse biased more than 6V. I have routinely driven them well past this without damage (up to 20V), but if you want to be safe, the positive and negative inputs (J1 pins1,5) should never differ by more than 6.6V. There are tradeoffs between various protection schemes between current consumption during the over-voltage period, steepness of the transition region, and the bandwidth of the circuit. For this application, speed is necessary as the sharpness of the triangle or saw wave determine its accuracy. Any rounding off of the peaks will cause distortion. For this reason, i would reccomend series connected, 5.6V zener diodes between the 2 inputs pins (maybe, need to check this).

Documentation

SineCore (last edited 2017-12-08 00:45:32 by guest)