Title :
A Flexible Rate Multiplier Circuit with Uniform Pulse Distribution Outputs
Author_Institution :
Department of Electrical Engineering, Delft Technical University, Delft, The Netherlands.
Abstract :
In digital integrated circuits (IC´s) a synchronous binary-rate multiplier is commercially available, generating a programmable number of output pulses during each internal counting cycle having a length equal to a power of two. These output pulses are not equally divided over that fixed internal counting cycle and the generated binary rate has a fixed denominator. In this note a new type of binary-rate multiplier is described. This circuit allows the programming of both numerator a and denominator b of the rate of the numbers of output and input pulses. It operates in such a way that during a cycle of b pulses the circuit output generates a number of pulses divided over the cycle of b pulses as equally divided as is possible in digital systems.
Keywords :
Circuit theory; Digital integrated circuits; Electrons; Equations; Flexible printed circuits; Logic design; Pulse circuits; Pulse generation; Switching circuits; Turing machines; Applications in arithmetic and conversion operations (as A/D and D/A conversion); division rate of integer numbers; fixed-rate or variable-rate frequency division; programmable logical output circuit; synchronous binary counter;
Journal_Title :
Computers, IEEE Transactions on
DOI :
10.1109/TC.1972.5009048
