it is real parameter.it calculate output by appling KVL and KCL by finding loop current.
r parameter is resistance parameter
Answerthe h parameter or the hybrid parameters of a transistor helps us to analyse the amplifying action of transistor for small signal .it is necessary for practical purposes.In generally there are four type of h parameter.these are :h11h12h21h22
At different parameters the input and output relation differs ,amplification factor varies across the various configuration of transistor. To know how to use the transistor weather as a switch or as an amplifiers analyzing it across all the parameters is important.
1
The output conductance is assumed to tend to infinity and the collector current is assumed to be equal to beta multiplied by the base current.
r parameter is resistance parameter
small signal operations
Answerthe h parameter or the hybrid parameters of a transistor helps us to analyse the amplifying action of transistor for small signal .it is necessary for practical purposes.In generally there are four type of h parameter.these are :h11h12h21h22
sigma
At different parameters the input and output relation differs ,amplification factor varies across the various configuration of transistor. To know how to use the transistor weather as a switch or as an amplifiers analyzing it across all the parameters is important.
Type your answer here... TO DECREASE THE COMPLEXITY . ANSWER: h parameters are used to analyze small signal behavior o a transistor.
# parameter are usually the base current ib,collector current ic,emitter current ie,collector emitter voltagevce,base emitter voltagevbe,collector base voltagevcb which decide the operation &output of the transistor
Collector-to-Emitter resistance is high when the transistor is biased off.
R. Paul has written: 'Measurement of transistor parameters'
1
It depends on the context. It can refer to the parameter of the Poisson distribution, the length (particularly wavelength), the distance parameter in vector representation of a line r = a + lambda*b where r, a and b are vectors.
The output conductance is assumed to tend to infinity and the collector current is assumed to be equal to beta multiplied by the base current.