SU551572A1 - Device for measuring the noise ratio of quadrupoles - Google Patents

Claims (1)

FIG. 1 shows a block diagram of the device; in fig. 2 - time diagrams of his work. The device for measuring the noise ratio of the quadrupole contains a noise generator 1, a test quadrupole 2 high-frequency switch 3, a low power meter 4, a switch 5, a ratio meter 6, an adder 7, a calibration number input block 8, an indication block 9 and a control block 10, The generator 1 is connected via switch 3 either directly or through a quadrupole 2 to the input of meter 4, the output of which is connected to the first input of switch 5, the outputs of which are connected to the first input of adder 7 that controls The switches 3 and 5 are connected via block 10 to another output of generator 1, and block 8 is connected to block 9 through adder 7. The device operates as follows. Noise generator 1 is periodically either cold or hot. FIG. Figure 2 shows the time diagram of the change in the relative temperature P, C, of the noise at its output (in the T diagram) Tln + l — the relative temperature of the noise in the hot state of the generator 1). In the measurement mode of the co-effector of the quadruple circuit, the high-frequency switch 3 is in the position 3/1. The voltage UQ at the output of meter 4 in the hot and cold states of generator 1 is defined by the following expressions, respectively, sHvM. for J MMlrt 1 4 V imm - relative excessive temperature of noise in the hot state; Qy is the power transfer coefficient of the tested quadrupole 2; Rimm is the coefficient of proportionality between the voltage at the output of the meter 4 and the relative temperature of the noise at its input. Switch 5 supplies one input of meter 6 with the voltage Ujj Ug from the output of meter 4, and to the other input voltage Up 1, which is a cutout from the voltage UQJ at the moment when the generator is in a cold state. No. 6 digitally decibels the ratio of the amplitudes of the variable components of the voltages Ujj and TJc equal to oe§k / (u ,, - uo. Next, the value from block 8 is added to this number. As a result in block 9, the magnitude of the noise factor in white is determined, expressed by the expression N / tb). t lU 1 In the mode of measuring the coefficient Q., transferring the power of the quadrupole to the high-frequency switch 3 during the time that generator 1 is in each state (cold and hot) alternately in 3/1 and 3/2 positions. The voltage Ug at the output of the meter 4 When switch 3 is in position 3/1 for cold and hot conditions of generator 1 is determined by expelling (2) and (1), respectively. For position 3/2 of switch 3, the voltage value is NO. in cold and hot generator 1, the following expressions are defined respectively, and 2 iml, (5J, U4 (onjG "ML,) Switch 5 supplies the inputs of the meter 6 to the voltage Uj, and UQ obtained from the voltage} (for cutting, when switch 3 is in positions 3/1 and 3/2, respectively, meter 6 ratios numerically decibels the ratio of the amplitudes of the component voltages Ue and) with the modulation frequency of the generator 1. As a result, in block 9 through the adder 7 enters in a digital code the value of the power transfer ratio in decibels x, determined by the expression G. (g6) (5). The operation of the switch 5 and the high-frequency switch 3 is controlled by the control unit 1O, which uses a signal from the auxiliary output of the noise generator 1. The control unit 10 can be implemented on the basis of digital technology using a mathematical apparatus for constructing finite automata for synthesis. Formula of the invention A device for measuring the noise factor of quadrupoles, containing a noise generator, a low power meter, via a switch with a relationship meter, and an adder, whose inputs are connected to the outputs of the relationship meter and the calibration number input block, and the output to the input of the display unit, characterized in that, in order to expand the functionality of the device, a high-frequency switch and a block are entered into it control, while the input terminals of the tested quadrupole are connected via a high-frequency switch to the output of the noise generator, the output terminals are connected to the input of a low-power meter, and the control inputs are about oih switches connected to an output of the noise generator via a control unit. Dimension Well measurement 6y .one