JP2002014139A - System for determining package - Google Patents

Abstract

PROBLEM TO BE SOLVED: To determine a classification of an insertion package using a simple circuit configuration. SOLUTION: In this system, a resistance R of a time constant concerned for the reset time of the voltage of an insertion signal line 1 is provided in a main board (control package 4), having a measuring circuit 6 for measuring voltage change of the signal line 1, and a capacitor C of the time constant concerned for the reset time of the voltage of the signal line 1, is provided in each of sus board (insertion packages 5a-5c) corresponding to a classification thereof, the classification of the insertion packages 5 connected to the control package 4 under the operating condition (hot-line condition) via the signal line 1 is determined by measuring the reset time at each insertion of the packages, and the package is determined thereby, without complicating the circuit configuration.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a package judging method, and more particularly to a technique for judging the type of a package inserted by a very simple circuit configuration.

[0002]

2. Description of the Related Art In a configuration of an electric device, there is a configuration in which a plurality of sub-boards (hereinafter, referred to as an insertion package) are connected to one main board (hereinafter, referred to as a control package) to function. For example, it is assumed that the above-described control package controls the entire electric device, and that there are various types of insertion packages according to functions, and that the mounting locations thereof are not completely fixed. In an electric device having such a configuration, the control package may need to know what insertion packages are connected and how many are connected. In such a case, in the conventional package determination method, for example, by performing data communication between the control package and the insertion package, the control package can determine the state (type and quantity) of the connected insertion package. I knew.

[0003]

However, in the above-mentioned conventional package determination method, there is a problem that a communication circuit for data communication is required in both the control package and the insertion package, and the configuration becomes complicated. .

The present invention has been made to solve such a problem, and an object of the present invention is to provide a package determination method capable of determining the type of an inserted package with a simple circuit configuration. I do.

[0005]

According to a first aspect of the present invention, there is provided a package determining method according to the present invention, wherein a control package determines a type of an inserted package inserted in a live state. Wherein the insertion package has a capacitor having one end connected to a low potential point, and a diode having a cathode connected to the other end of the capacitor, and the control package has one end connected to a high potential point. And a measurement circuit connected to the other end of the resistor, and when the insertion package is inserted, the other end of the resistance of the control package and the anode of the insertion package connect the insertion signal line. The type of the insertion package is determined by measuring the voltage change of the insertion signal line at this time by the measurement circuit. According to a second aspect of the present invention, the measuring circuit includes a voltage monitoring unit that monitors a voltage of the insertion signal line; A clock generation unit that generates a clock frequency; a counting unit that counts a clock from the clock generation unit based on an output from the voltage monitoring unit; a storage unit that stores a preset count table; A determination unit that determines a type of a package connected to the insertion signal line by comparing an output of the unit with a count table of the storage unit.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail based on illustrated embodiments. FIG. 1 is a functional block diagram showing an embodiment of a package determination circuit using a package determination method according to the present invention.

The package determination circuit shown in this example has a back wiring board (hereinafter referred to as B) in which an insertion signal line 1 is printed and wired and a plurality of joints (connectors) 3 are provided at appropriate places.
WB) 2 and the insertion signal line 1 via a junction 3
And a plurality of insertion packages (sub-substrates) 5a to 5c connected to the insertion signal line 1 via the junction 3. Here, the insertion packages 5a, 5b, 5
It is assumed that c has different functions (types).

The control package 4 includes a resistor R and a measuring circuit 6. One end of the resistor R is connected to a power supply voltage Vcc (high potential point) in the control package 4, and the resistor R
Is connected to the junction of the control package 4.
The measurement circuit 6 includes a voltage monitoring unit 7, a clock generation unit 8, a counting unit 9, a determination unit 10, and a memory (storage unit) 11.
Are connected to the resistor R (on the junction side of the control package 4). The voltage monitoring unit 7 monitors the voltage of the insertion signal line 1 and measures a voltage change state. The clock generator 8 generates a predetermined frequency by using a local oscillator (not shown) and outputs the predetermined frequency as a clock signal. Note that the description here assumes that a 10 kHz clock is used. The counting section 9 counts the clock signal from the clock generation section 8 based on the output of the voltage monitoring section 7, and the count value is supplied to the determination section 10. The memory 11 stores information corresponding to the type of the inserted package in advance, and here, the stored information is referred to as a count table. The determination unit 10 determines the type of the inserted package from the count value from the counting unit 9 based on a count table stored in the memory 11 in advance.

Further, the insertion packages 5a to 5c are
Each has a capacitor C and a diode D,
Both have the same connection configuration, but the capacitance value of the capacitor C is a predetermined value according to the function (type) of the insertion package.
That is, taking the insertion package 5a as an example, one end of the capacitor C1 is connected to the ground (low potential point), and the other end is connected to the cathode side of the diode D1. Then, the anode side of the diode D1 is connected to the junction of the insertion package 5a. In the example shown in FIG. 1, the insertion packages 5a and 5b have already been inserted, and the insertion package 5c shows a state to be inserted.

The package determination circuit shown in FIG. 1 functions as follows. That is, since the insertion signal line 1 is connected to the power supply voltage Vcc via the resistor R in the control package 4, the voltage of the insertion signal line 1 becomes Vcc. In this state, for example, when the insertion package 5c is inserted, a current flows from the insertion signal line 1 to the ground via the diode D3 and the capacitor C3, whereby the voltage of the insertion signal line 1 decreases. That is, the control package 4
A CR circuit is formed between Vcc and the ground of the insertion package 5c, and C3 is charged according to the time constant of the resistor R and the capacitor C3. The voltage of the insertion signal line 1 during charging recovers to approach the Vcc voltage with the passage of time. The voltage of the insertion signal line 1 that changes in this way is measured by the measurement circuit 6 of the control package 4.

FIG. 2 is a diagram showing an example of a voltage change state of the insertion signal line. In this figure, the voltage (V) is shown on the vertical axis and the time (t) is shown on the horizontal axis. In the figure, "Vcc" is a power supply voltage, "Vr" is a reference voltage, and "t1". Is the recovery time, and “tp” is the protection time. That is, V
When any type of insertion package is inserted into the insertion signal line 1 corresponding to the cc voltage, the voltage of the insertion signal line 1 decreases. Generally, chattering occurs when a package is inserted, and this is also illustrated. Thereafter, the voltage of the insertion signal line 1 gradually recovers toward the saturation of the charging of the capacitor C. The measurement circuit 6 measures the recovery time indicated by t1, and the recovery time t1 is the first fall (the protection time tp) passing through the reference voltage Vr.
) To the first rise that passes the reference voltage Vr (outside the protection time tp).

The operation of the measuring circuit 6 will be described. First, the reference voltage Vr and the protection time tp are set in the voltage monitoring unit 7, and the voltage monitoring unit 7 instructs the counting unit 9 to start measurement when it catches the first fall that passes this reference voltage Vr. Output a trigger signal to the effect. The measuring unit 9 receiving this,
The counting is started based on the clock from the clock generator 8. At this time, the voltage monitoring unit 7 ignores the passage of the reference voltage Vr during the protection time tp, thereby preventing malfunction due to chattering.
Here, the protection time tp is set to 100 ms.

When the voltage monitor 7 captures the first rising that passes the reference voltage Vr after the elapse of the protection time tp, the voltage monitor 7 outputs a trigger signal to the counter 9 to stop the measurement. Based on the trigger signal indicating that the measurement has been stopped, the counting unit 9 stops counting and outputs the count value to the determination unit 10. This count value corresponds to the return time t1, and the determination unit 10 determines which package has been inserted by comparing the count value with the count table stored in the memory 11.

FIG. 3 is a diagram showing an example of a count table stored in the memory 11. The count table shown in this figure is obtained by associating counter values divided by an appropriate width with a predetermined package type. Here, the capacitances of the capacitors C1, C2 and C3 are each 1
Examples are 20 μF, 200 μF, and 300 μF. In this case, the return time t1 of C1 is about 145.6 m
The return time t1 for S and C2 is about 242.7 mS, and the return time t1 for C3 is about 364.1 mS. Return time t1
Can be obtained by the following equation (1).

T1 = −CRlog (1− (Vr / Vcc)) (1)

The count table associated in this way is stored in the memory 11 in advance, and the determination section 10
Collates the counter value from the counting unit 9 with this count table to determine which inserted package it is. For example, if the counter value from the counting unit 9 is “3200”
If so, the determination unit 10 determines that the insertion package 5c including the capacitor C3 has been inserted, whereby the control package 4 can recognize that any type of package has been inserted. Further, if the control package 4 counts the quantity each time a package is inserted, it can grasp which type of package and how many packages are inserted.

As described above, in the package determination circuit using the package determination method according to the present invention, the capacitance of the capacitor C installed in each of the insertion packages is changed according to the type of the insertion package, and each of the insertion packages is shared. The type of the insertion package is determined by measuring the return time t1 of the insertion signal line 1 used in the control circuit 4 by the measurement circuit 6 of the control package 4, so that the circuit configuration can be simplified. Become.

The function of the diode D will be described with reference to the drawings. FIG. 4 is a diagram showing a current flow of a newly inserted package. In a state where the control package 4 and the insertion package 5b are already connected to the insertion signal line 1, the insertion package 5c is newly inserted. This is an example of a state immediately after the operation. That is, before the insertion package 5c is inserted, the insertion package 5
C2 of b is charged, and if there is no D2 of the insertion package 5b, when the insertion package 5c is inserted, the current charged in C2 is discharged so as to flow to ground via C3. Nari, control package 4
It is difficult for the measurement circuit 6 of the first embodiment to accurately measure the return time t1. Therefore, the diode D is inserted into each insertion package so that the discharge current does not flow out to the insertion signal line 1.

[0019]

As described above, the package judging method according to the present invention is applied to a main board (control package) having a measuring circuit for measuring a change in voltage of an insertion signal line when the voltage recovery time of the insertion signal line is involved. The sub-substrate (insertion package) is provided with a capacitor C having a time constant related to the return time of the voltage of the insertion signal line according to the type of the sub-substrate (insertion package). Line state), the type of the inserted package connected to the control package via the insertion signal line is determined by measuring the return time every time the package is inserted, and the type of the inserted package is determined. Can be determined without complicating the package.

[Brief description of the drawings]

FIG. 1 is a functional block diagram illustrating a configuration example of a package determination circuit using a package determination method according to the present invention.

FIG. 2 is a diagram illustrating an example of a voltage change state of an insertion signal line.

FIG. 3 is a diagram illustrating an example of a count table.

FIG. 4 is a diagram for explaining a function of a diode D;

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Insertion signal line 2 ... BWB (back wiring board) 3 ... Junction point (connector) 4 ... Control package (main board) 5a-5c ... Insertion package (sub board) 6 Measurement circuit 7 Voltage monitoring unit 8 Clock generation unit 9 Counter unit 10 Determination unit 11 Storage unit (memory)

Claims (2)

[Claims] 1. A package judging method for judging a type of an insertion package to be inserted in a live state by a control package, wherein the insertion package includes a capacitor having one end connected to a low potential point, and a cathode. A diode connected to the other end of the capacitor, the control package includes a resistor having one end connected to a high potential point, and a measuring circuit connected to the other end of the resistor, wherein the insertion package is inserted. In this case, the other end of the resistor of the control package and the anode of the insertion package are connected via an insertion signal line, and the voltage change of the insertion signal line at this time is measured by the measurement circuit, whereby the insertion package is connected. A package determination method characterized by determining a type. 2. A measuring circuit comprising: a voltage monitoring unit that monitors a voltage of the insertion signal line; a clock generation unit that generates a predetermined clock frequency; and a clock generation unit based on an output from the voltage monitoring unit. A counting unit that counts clocks of the same, a storage unit that stores a preset count table, and a package connected to the insertion signal line by comparing the output of the counting unit with the count table of the storage unit. The package determination method according to claim 1, further comprising: a determination unit that determines a type.