SU1704269A1 - Digital attenuator - Google Patents

Description

The invention relates to radio engineering and can be used for various purposes.

The aim of the invention is to expand the range of operating capacities. 5

The drawing shows a structural electrical circuit of a discrete attenuator.

The discrete attenuator contains an input power divider 1, an output 10 adder 2 power n switching cell 3 attenuation, made in the form of an input switch 4, the first and second resistors 5 and 6 and the output switch 7. 15

Discrete attenuator works as follows.

An input signal with a power of P _N x is supplied to the input of an input power divider 1, made, for example, according to one of the circuits 20 of the transformer bridge device.

The power input divider 1 branches the input power Pbx into two arms, and the power Q is supplied to the input of the attenuation switching cell 3, and the power S is fed to the input 25 of the second arm of the output power adder 2.

Then the power division ratio of the input power divider 1 is

Then the power values Q and S can be written as follows:

1____

4- m

(12)

If the input and output switches 4 and 7 are in a position in which the signal power at the input of the first 40th arm of the output power adder 2 is equal to the power Q, then the output power of the device is determined by the expression _n S ₍ mQ, _n VS ~~ inQ 45 ^p - “- T-wr ⁺ 4- + s- ⁺² '* ₍ rw (3)

Expression (3) shows that for these conditions, a discrete generator does not have losses.

Consider the case where the output of the first arm of the input power divider 1 is connected to the first resistor 5. so that the input power divider 1 does not introduce 55 additional losses *, the resistance of the first resistor 5 is selected by the different output resistance of the first arm of the input power divider 1, in this case, the input of the first arm the output totalizer of 2 capacities is connected to the second resistor C, the resistance value of which is equal to the input resistance of the input of the first arm of the output totalizer of 2 capacities.

Moreover, there are no signal powers at the input of the first arm of the output adder 2, i.e., 0 ^ 0. At the gathering of the second shoulder of the output adder 2 power signal S.

Using expression (3) and considering that Q == 0, the output power of the device is

Р - ^{s Гвых} Т + 7Г · or taking into account (2)

Rvyh ~ ----— Rvkh · + m y

The transfer coefficient of a discrete attenuator in this way can be expressed as follows:

η = 10 log -—- 20 log (1 + m),

G BX

those. the transmission coefficient is determined by the power division coefficient m, therefore, the range of operating powers is determined only by the allowable dissipation power of the first resistor 1.

Claims (1)

Claim A discrete attenuator containing an input power divider, made with different coefficients of dividing the power of the shoulders, the output power adder and a switching attenuation cell included between the output of the first arm of the input power divider and the input of the first arm of the output power adder, characterized in that, in order to expand the range of working power, the switching attenuation cell is made in the form of input and output switches and the first and second resistors, the resistance values of which are selected by according to the output resistance of the first arm of the input power divider and the input resistance of the first arm of the output power adder, the first output of the input switch is connected to the first input of the output switch, the second output of the input and second input of the output switch are connected respectively to one of the terminals of the first and second resistors, other outputs which are connected to a common bus, while the output of the second input of the input power divider is connected, ”to the input of the second shoulder of the output adder m directly generality, and the control inputs of the input and output switches are control input of the attenuator.