JP2767647B2 - Variable resistor - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Summary] The present invention relates to a variable resistor capable of changing a resistance value in a step-like manner, with an object of providing a variable resistor having good operability using a fixed resistor having a standard numerical value of the E24 series. the resistance from 10 ⁿ Omega to 10 ^{n + 1} Omega a variable resistor which can be set at 10 ⁿ Omega step, 10 ⁿ Ω, 2 × 1
A ^{0 n Ω, 3 × 10 n} Ω, the resistance value of 3 × 10 ⁿ Omega respectively,
6 and four fixed resistor connected in series with this order, the and four fixed resistors 10 ⁿ Omega fixed resistor connected in series to one end of a connection point between both ends of the series connection Resistance value selecting means for selecting appropriate two points from the extracted points and connecting to the external connection terminal.

[Industrial applications]

The present invention relates to a variable resistor capable of changing a resistance value in a stepwise manner.

In the power supply device of communication equipment, the specifications of the supply current for different load resistances are determined, and the test is performed based on these specifications.
Ω, ..., etc. in 10 ⁿ steps and 10 ⁿ to 10 × 10 ⁿ
Testing is done until. As the test load, a variable resistor that can easily change the resistance value is required.

[Conventional technology]

 FIG. 4 is a diagram showing a conventional variable resistor of this type.

Conventionally such purposes are prepared a plurality of different fixed resistors with resistance values in the unit 10 ⁿ Omega, in response to the resistance value required by changing the connection of each resistor a predetermined resistance value I was getting it.

That is, for example, as shown in FIG.
If you want to obtain the resistance value in 0Ω steps, 10, 20, 40, 8
By connecting four types of fixed resistors R _{6 to} R ₉ of 0Ω in series and connecting switches 41 to 44 in parallel with each fixed resistor, and turning on a desired switch, an arbitrary This is a method in which a fixed resistor is short-circuited and a desired resistance value is realized between A and B by the sum of the remaining fixed resistors. For example, 10
In order to obtain Ω, only switch 41 is turned off, and all other switches 42 to 44 are turned on. For example, if you want to get 50Ω,
41 and 43 are turned off, and switches 42 and 44 are turned on.

[Problems to be solved by the invention]

However, the above circuit configuration has a problem that the operability is not good because it is necessary to change the combination of switches that are turned on and off in accordance with a desired resistance value. In addition, since the resistance values of fixed resistors that are commercially available are prepared in the standard number of E24 series, there are no values of 40Ω or 80Ω, so 39Ω or 82Ω will be used as the closest value. However, there is a problem that the accuracy of the resistance value cannot be secured. To avoid this, it is troublesome to specially prepare a fixed resistor having a resistance value other than the standard value.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a variable resistor having good operability by using a fixed resistor having a standard numerical value of the E24 series.

[Means for solving the problem]

 FIG. 1 is a principle diagram of the variable resistor according to the present invention.

The above problems, as shown in FIG. 1, a resistance value of from 10 ⁿ Omega to 10 ^{n + 1} Omega variable resistor which can be set at 10 ⁿ Omega step, 10 ⁿ Ω, 2 × 10 ^{n Ω, 3 × 10 n Ω} , respectively have a resistance value of 3 × 10 ⁿ Ω, this four fixed resistor connected in series in the order _{R 1, R 2, R 3} , R 4, wherein into four one end of the fixed resistor connected in series 10 ⁿ Omega
A fixed resistor R _5, the extraction point of six between the connection point and the two ends of the series connection -
And a resistance value selecting means 1 for selecting appropriate two points among them and connecting the selected two points to the external connection terminals A and B, and the variable resistor according to the present invention.

[Action]

If the resistance value of the fixed resistor is selected as above, this value will be E2
Since there are standard values for the 4 series, standard products can be used as fixed resistors, and manufacture, maintenance and replenishment are easy. Then connected in series as described above, by extracting between appropriate second connection point to the external connection terminal by the resistance selecting means, a combination of one or adjacent a plurality of fixed resistors 10 ⁿ Omega from 10 ^{n +} since up to ¹ Omega can realize all of the resistance value of 10 ⁿ Omega step, setting of the resistance value can be easily using a resistance value selecting means such as a rotary switch.

〔Example〕

An embodiment of the present invention will be described below with reference to the accompanying drawings. FIG. 2 is a circuit diagram of the first embodiment of the present invention, and FIG. 3 is a circuit diagram of the second embodiment.

In this embodiment, a case will be described in which a variable resistor whose resistance value can be selected from 10 to 100Ω in 10Ω steps is realized.

In FIG. 2, the variable resistor of the present invention comprises five fixed resistors R _{1 to} R ₅ and resistance value selecting means 1.

The fixed resistors R _{1 to} R ₅ are the standard numerical values of the E24 series whose resistance values have two significant figures, and the lower digits are 0, 10, 20, 3
R ₁ = 10Ω, R ₂ = 20Ω, R ₃ = 30Ω, R
₄ = 30 [Omega, defined as R ₅ = 10Ω, are connected in series in the order described above.

The resistance value selecting means 1 is composed of a rotary switch having two circuits and 11 contacts, and is interlocked with two sets of 11 fixed contacts 1a to 11a and 1b to 11b arranged on a concentric circle by rotation of a rotating shaft.
It has two movable contacts 2a and 2b respectively connected to arbitrary fixed contacts having the same angle.

Then, both ends of the series connection of the fixed resistors R _{1 to} R ₅ , and the intermediate connection point to 4 points, a total of 6 points, are extraction points,
The two lead-out points are connected to two fixed contacts at the same position of the resistance value selecting means 1 by being appropriately combined so as to have a desired resistance value of every 10Ω. It is configured such that a desired resistance value is realized between the external input terminals A and B by connecting the connection terminals to an extraction point having a desired resistance value, and the external connection terminals A and
All resistance values of 10 to 100Ω can be obtained in 10Ω steps between B.

The combination of the draw-out points is, for example, as shown in FIG.
1a, 1b between the short-circuit, 2a, 2b in the in the R ₁ 10Ω, 3a, 20Ω than second R ₂ are 3b, 4a, of R ₃ from two to 4b 30 [Omega, 5
30 + 10 = 40Ω for a and 5b, 20 + 30 = 50Ω for 6a and 6b, and 10 + 20 + 30 = 60 for 7a and 7b
Ω, 30 + 30 + 10 = 70Ω for 8a, 8b, 20 + 30 + 30 = 80Ω for 9a, 9b, 1 for 10a, 10b
0 + 20 + 30 + 30 = 90Ω, 11a and 11b have 10 + 20
Since + 30 + 30 + 10 = 100Ω resistance values are connected to each other, switching the movable contact to which the external connection terminal AB is connected to the corresponding set of fixed contacts allows 10-
Any resistance value can be realized in 100Ω steps in 10Ω steps.

Note that, in the series connection of the fixed resistors in the above order, the combination of the extraction points giving the same resistance value is not limited to the above, and for example, 30Ω can be realized, 60Ω can be realized, and 90Ω can be realized.

FIG. 3 shows a second embodiment, in which the second 10
Are those which bring Ω resistor R ₅ to the outside of the first 10Ω resistance R _1, by connecting the extraction point as in this case is also drawing the fixed contact of the resistance value selecting unit 1, a first embodiment As in the example, resistance values of all 10 steps can be realized.

Note The above description has been described which varies the 10Ω~100Ω at 10Ω step, even if the generally obtain from 10 ⁿ Omega to 10 ^{n + 1} Ω at 10 ⁿ Omega step, selected from the E24 series of corresponding digits The same principle can be realized using only three types of standard resistors.

[Effects of the Invention] As described above, since the variable resistor of the present invention is configured using a minimum number of fixed resistors having standard values of the E24 series, maintenance and replenishment are easy at low cost, and Since the resistance value of the step can be realized with high accuracy and the resistance value can be set only by rotating the rotary switch, the operability is improved as compared with the conventional one in which a plurality of switches are combined.

[Brief description of the drawings]

FIG. 1 is a principle diagram of the variable resistor of the present invention, FIG. 2 is a circuit diagram of a first embodiment of the present invention, FIG. 3 is a circuit diagram of a second embodiment of the present invention, FIG. Is a configuration diagram of a conventional variable resistor. In the figure, R _{1 to} R _{5 are} fixed resistors, 1 is a rotary switch (resistance value selecting means), A and B are external connection terminals, and are pull-out points.

Claims (1)

(57) [Claims] A method according to claim 1] 10 ⁿ the resistance value of up to 10 ^{n + 1} Omega from Omega 10 ⁿ Omega variable resistor which can be set in ^{step, 10 n Ω, 2 × 10} n Ω, 3 × 10 ⁿ Omega, has a resistance value of 3 × 10 ⁿ Omega respectively, four fixed resistor connected in series with this order and _{(R 1, R 2, R} 3, R 4), the four fixed resistor one end connected in series 10 ⁿ Omega fixed resistor and (R _5), 6 positions of the lead point of the connection point between both ends of the series connection (~
) Are selected and the external connection terminals (A,
A variable resistor comprising: a resistance value selecting means (1) connected to B).