JP2600401B2 - Diode switch - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a diode switch that determines whether a signal is transmitted or not by turning on / off a current source.

2. Description of the Related Art In recent years, switch circuits using electronic means have been used instead of mechanical switches.

 Hereinafter, a conventional diode switch will be described.

FIG. 2 is a diagram showing a conventional diode switch.
23 is a PNP transistor constituting a current mirror, 24, 25
Are NPN transistors that constitute a current mirror, 26, 27, 2
8, 29 are switch diodes, 30 is a hold capacitor,
33 is a switch current source. The current of the switch current source 33 is determined by the PNP transistors 21 to 23 and the NPN transistors 24 and 25.
The diodes 26 to 29 are controlled by the current output from the current mirror composed of At this time, a constant is set so that I ₃₃ = I ₂₅ = I ₂₃ (1).

When the current I ₃₃ flows, a current I ₂₃ = I ₂₅ is diode 26-2
9 and when these diodes turn on,
The signal input from the input terminal 31 is output to the output terminal 32. Then I ₂₃ = I ₂₅ = 0 becomes the diode 26 to 29 when the current I ₃₃ is turned off is turned off. That is, the signal from the input terminal 31 to the output terminal 32 is cut off and held by the capacitor 30.

However, in the above-described conventional configuration, the current I ₃₃
To off, since the current I ₂₅ as compared with the current I ₂₃ current I ₂₃ and I ₂₅ are without simultaneously turned on or off is delayed time to off, charge is drawn to the negative side output step occurs in the output terminal 32 Had the problem that

The present invention, above problems solves the, provide a reduction can diode switch in the amount of output DC level difference generated from the difference in timing of on and off of the upper and lower current I ₂₅ and I ₂₃ for supplying to the diode It is intended to be.

Means for Solving the Problems In order to achieve this object, in addition to the first and second current mirrors for driving the switch diode, the current supplied from the second current mirror is further mirrored, and the first current is mirrored. It has a configuration with a third current mirror that creates a current that mixes with the current from the mirror.

Operation With this configuration, it is possible to reduce the amount of the output DC step generated due to the difference in the on / off timing of the control current for turning on / off the switch diode.

Embodiment Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a circuit diagram showing a diode switch according to an embodiment of the present invention. In FIG. 1, 1-3,4-5,15-16
Are transistors constituting first, second and third current mirrors respectively, 6 to 9 are switch diodes, 10 is a hold capacitor, and 13 is a switch current source. In addition to the conventional configuration, it is composed of a transistor 14 for generating an output current of the second current mirror and transistors 15 and 16 for forming a third current mirror. The current supplied to the switch diode is the collector current of the transistors ₃ , ₅ , and _{16. If} these currents are I ₃ , I ₅ , and I ₁₆ , the configuration is such that I ₅ = I ₃ + I ₁₆ (2) . If the diode switch transitions from on to off, time off of the current I ₅ than the current I ₃ is delayed, DC voltage of the output terminal 12 decreases transiently.
Current I ₁₆ is operated so as to pull the DC voltage to further delayed to off, it is possible to suppress a decrease in the DC voltage at the output terminal 12 as a result.

As described above, according to the present invention, by adding a current source circuit for correcting a timing difference between two control currents for driving the switch diode, the amount of output step generated at the time of on / off can be reduced. The effect of reducing can be obtained. Also, if the same level fluctuation is allowed,
It is possible to use a smaller hold capacitor than before.

[Brief description of the drawings]

FIG. 1 is a circuit diagram of a diode switch according to an embodiment of the present invention, and FIG. 2 is a circuit diagram of a conventional diode switch. 1 to 3, 4 to 5, 14 to 16, 21 to 23, 24 to 25: transistors forming a current mirror, 6 to 9, 26 to 29: switch diodes, 10, 30: hold capacitors.

Claims (1)

(57) [Claims] In a switch circuit for controlling signal transmission by turning on and off a diode bridge, a current is supplied from a first current mirror connected to a switch current source and a first output terminal of the first current mirror. A second current mirror for mirroring a current; a third current mirror for further mirroring a current at a first output terminal of the second current mirror; a third current mirror and a second current mirror of the first current mirror And a diode bridge having one end connected to the connection point of the output terminals of the second current mirror and the other end connected to the second output terminal of the second current mirror.