JPS63316920A - diode switch - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] [Summary] In order to minimize the number of diodes used in a diode switch that connects and disconnects analog signals and to maintain good impedance characteristics when the signal is disconnected, the transmission signal path when the signal is disconnected is A device configured to insert a terminating resistor.

[Industrial application field]

The present invention relates to a circuit configuration of a diode switch that cuts off high-frequency analog signals transmitted through a line, and in particular improves the impedance characteristics of the input/output line when the diode switch cuts off the input analog signal, and increases the number of diodes used. It relates to minimizing costs and reducing costs.

[Conventional technology]

Conventional diode switches have configurations such as L-type, π-type, T-type, and double-balanced types with equivalent circuits as shown in Figure 3, and include signal intermittent diodes Di and D2-.
There are examples of circuits using PIN diodes, among which π-type and T-type diode switches have a characteristic that the impedance when a signal is interrupted does not change greatly with respect to the line impedance.

[Problem that the invention seeks to solve]

However, the π of the conventional diode switch in FIG.
Diode switches of type and T type require at least three PIN diodes for signal intermittent diodes DI, D2, etc., so they are widely used as signal switches for intermittent analog signals (they are expensive to use). There is a problem that it is not necessarily appropriate as it becomes high.

In addition, the conventional L-type diode switch requires only two P/N diodes, so there is no problem in terms of cost, but when the signal is cut off, the diode switch becomes a short circuit or an open impedance. To become
There is a problem in that it has an adverse effect on the input/output lines connected to the diode switch. Like the L type, Jurai's double-balanced diode switch has poor impedance characteristics when the signal is cut off, and the number of diodes is 4.
Since it requires several units, there is also a problem from a cost perspective.

[Means for solving problems]

This problem of impedance characteristics when cutting a signal and the problem of high cost due to the number of diodes used can be solved by using a diode switch that requires only two diodes, a series diode 1 and a parallel diode 2. This problem is solved by the configuration of the present invention, which improves impedance characteristics each time a resistor 3 is inserted.

In the principle diagram of FIG. 1 showing the configuration of the diode switch of the present invention, l is connected between the input terminal IN and the output terminal OUT, and controls the externally applied biases b1 and b2 to switch between the input terminal IN and the output terminal OUT. A series diode, 2, is connected between the input terminal IN and the ground G, and is connected between the input terminal IN and the ground G, and is connected to the applied bias b2. b3 is a parallel diode that is turned off when series diode 1 is on and turned on when series diode 1 is off; 3 is a transmission signal Sin when series diode 11 is off;
, 5 out.

[Function] By controlling externally applied bias voltages b1 and b2, the series diode 1 turns on/off the input signal Sin inputted to the input terminal IN and outputs the output signal Sout from the output terminal OUT. Output. Parallel diode 2 receives a similarly applied bias voltage b2. By b3,
When the series diode 1 is on, it is off, and when the series diode 1 is off, it is on, forming a shunt for the human input signal Sin input to the input terminal IN. Terminal resistor 3
is inserted into the path of the input signal Sin, and is selected to have the same impedance value as the input line, so when the series diode l is off, impedance matching is achieved for the input line connected to the input terminal IN. The problem is solved by being taken. Furthermore, if a parallel diode 2 and a terminating resistor 3 are provided on the output side of the series diode 1, impedance matching will be achieved for the output line connected to the output terminal 011T, and the problem will be solved.

〔Example〕

FIG. 2 is a circuit diagram showing the configuration of a diode switch according to an embodiment of the present invention.

In the circuit diagram of FIG. 2, the series diode 1 is connected to the PIN
It consists of a diode DI, and the parallel diode 2 is PI
The terminal resistor 3 is composed of an N diode D2, and the terminal resistor 3 is connected to the input terminal I.
A resistance equal to the impedance value of the input line connected to N [? selected. The resistance R of the terminating resistor 3 is connected to the parallel diode 2 P through the DC cut capacitor C3.
Connected to the anode of IN diode D2.

The cathode of the PIN diode D2 is connected to the P of the series diode 1.
It is connected to the anode of the IN diode D1, and its connection point C is connected to the input line at the input terminal IN via a DC cut capacitor C1. And the PIN of the series diode l
The cathode of the diode Di is a DC cut capacitor C2.
It is connected to the output line at the output end 011T via.

DC bias is applied to the anode and cathode of the PIN diode DI of the series diode 1 via high frequency chokes L1 and L2, respectively, and to the anode of the PIN diode D2 via the high frequency choke L3, but the PIN diode A fixed bias applied to the anode of D1 connects a DC voltage +V to a resistor r7. The bias of the cathode of the PIN diode D1 is given by dividing the voltage by the bleeder of rl and r2, and the bias of the cathode of the PIN diode D1 is
DC voltage +V and resistance r6. With the leader of r3 and r4,
The bias of the anode of PIN diode D2 is DC voltage +
V and resistance r6. It is determined by r5, r4, and r3. When the PIN diode DI of the series diode 1 is forward biased, the PIN diode D2 of the parallel diode 2
becomes reverse biased, and when PIN diode DI is reverse biased, the PIN diode of parallel diode 2
]・Bias 1, so that D2 is forward biased.
Bias 2 is provided as a control bias.

Then, when the PIN diode Di of series diode 1 is forward-biased and turned on, the input signal Sin of the input line passes through the PIN diode Dl of series diode 1 with low loss and is transferred from the output terminal OUT to the output line. Output to. When the PIN diode D1 is reverse biased and turned off, the input signal Sin on the input line
is canted by the PIN diode DI of series diode 1, and the output signal 5out from the output terminal OUT to the output line
is not output. At this time, the PIN diode D2 of the parallel diode 2 is turned on, so the input signal Sin becomes P!
It passes through an N diode D2 and is terminated by a resistor R of a terminating resistor 2 to achieve impedance matching with the input line.

Therefore, in the diode switch of this embodiment, the minimum number of diodes used is two, and impedance matching is achieved with respect to the input line when the signal is cut off, so there is no problem.

In addition, if it is necessary to match the impedance of the output line when disconnecting the signal, connect a parallel diode 2 and a terminating resistor 3 to the output side of the series diode 1 in the same way as the input side of this embodiment. It is obvious that it should be provided.

〔Effect of the invention〕

As explained above, according to the present invention, it is possible to realize a diode switch that is configured with a minimum number of diodes and has good impedance characteristics when a signal is interrupted, so that it can be widely used in various applications for cutting off analog signals. Effects can be obtained.

[Brief explanation of drawings]

FIG. 1 is a principle diagram showing the configuration of a diode switch according to the present invention, FIG. 2 is a circuit diagram showing the configuration of a diode switch according to an embodiment of the present invention, and FIG. 3 is a circuit diagram of a conventional diode switch. In FIGS. 1 and 2, l is a series diode, 2 is a parallel diode, and 3 is a terminating resistor.゛:3 L-type T-type conventional diode - 3rd circuit diagram of π-type finalomarance type dosisochi

Claims (1)

[Claims] An input terminal (IN) and an output terminal (O
Bias (b1, b
2), which turns on/off the input signal (Sin) at the input end (IN) and outputs it from the output end (OUT); ) and applied biases (b2, b3) when the series diode (1) turns on/off.
), and a resistor (3) connected in series to the parallel diode (2).
A diode switch, characterized in that when the series diode (1) turns off the input signal (Sin), the input signal (Sin) is terminated by the resistor (3).