JPS6027229A - Extending device - 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 Field of Industrial Application The present invention relates to an extension device that is insertable and removable between a main frame and a printed circuit board on which electrical components are attached, especially an ECL.
(emitter-coupled logic) automatically terminates the signal and
The present invention relates to an extension device suitable for use when transmitting an L (1-run sister transistor logic) signal in an unrestricted manner.

BACKGROUND TECHNOLOGY AND PROBLEMS Many electronic devices, for example, as shown in FIG. Become. A number of electrical components (14) are mounted on the circuit board (12), the signal paths of which are connected to the main frame α0) via connectors (16).

Since the circuit board (12) is removably mounted within the main frame 0ω, it is easy to install or repair the circuit board (12).

By the way, in order to repair or adjust the circuit board (12), it is necessary to repair or adjust it while it is connected to the main frame (10). Since the contacts and connectors (22 ) and a signal path connected between them.
) from the main frame 00), and remove this circuit board (1
Insert the extender (20) into the connector (16) of the main frame 0ω instead of 2). The circuit board (12) is then inserted into the connector (22) of the extender (20). Then, the circuit board (12) is attached to the main frame (
[It will be connected to 01. At this time, extender (2
0) is the width of the circuit board (101) relative to the main frame (101).
Since the depth is greater than the insertion depth of the circuit board (12), the circuit board (12) is positioned outside the main frame (101), and therefore repairs etc. can be easily performed.

The extender (20) may be a printed circuit board with contacts and connectors at both ends or a flat cable with connectors at both ends.

Now, if the circuit board (12) contains logic circuitry, the extender (20) must match the logic levels used on that circuit board. When transmitting a special logic signal such as an ECL signal between the main frame (■) and the circuit board (12) via an extender (20), the extender is used because the ECL signal is used for high-speed logic signals. (20) to remove reflections of the signal.

Terminate the ECL signal with a small value resistor (e.g. 10
A resistor of 0Ω is used, to one end of which +3 volts is applied for +5 volt system ECL or 12 volts for -5,2 volt system ECL. On the other hand, for other logic signals such as TTL signals, termination with an extender (20) is not necessary. Therefore, the configuration of the connector is ECL and T.
Even though it is common to both TL circuit boards, a single extender cannot be shared between these circuit boards.

In electronic devices that incorporate several circuit boards, the connector pinout for ECL signals that requires a termination resistor is T
The pin arrangement may be the same as that of the TL signal connector. As mentioned above, the extender ECL signal requires a small value resistor for termination, creating a problem when applying a TTL signal to the extender signal path. Also, the termination voltage is TT
may be outside the range of L's operating voltage. Conventional extenders solve this problem by using straps that remove the terminating resistor from the circuit, but it is extremely troublesome to make adjustments or repairs while taking the terminating resistor into account. be.

Purpose of the Invention In view of the above, the present invention provides an extender that can be used in all connectors independently of the terminating resistor, and furthermore, automatically terminates the 10th chic signal such as the ECL signal, and automatically terminates the 10th chic signal such as the TTL signal. To provide an automatic termination type extension device that does not adversely affect 20-switch signals.

Summary of the Invention The present invention provides an automatic termination type in which an extender is removably inserted between the main frame and the circuit board to position the circuit board outside the main frame when making adjustments or repairs. An extension device is disclosed. The extender consists of a signal path, a voltage divider to which the voltage from the main frame is applied, a buffer for the output voltage of this voltage divider, and a terminating resistor, for example 100Ω, connected between the signal path and the output side of the buffer. have ECL
The main frame applies a predetermined voltage to the voltage divider so that when a tenth chic signal, such as a signal, flows through the signal path, the tenth chic signal is properly terminated. Furthermore, when the 20th chic signal such as a TTL signal flows through the signal path, the output voltage of the buffer should not affect the 20th chic signal.
The main frame provides a predetermined voltage to the voltage divider. Therefore, with the present invention, extenders can be used for all connectors, regardless of the number of terminating resistors.

EXAMPLE Hereinafter, an example of the present invention will be described in detail with reference to FIGS. 3 and 4.

FIG. 3 shows an example in which the present invention is applied to ECL1 path control, for example. In the figure, the ECL signal connector in the main frame 0ω is connected to the first pin (contact) (24 -1), the second pin (contact) (24-2) and the third pin to which a suitable voltage, e.g.
It has a pin (contact) (24-3). 1st pin (24
-1) is connected to an ECL circuit (not shown) in the main frame 0ω. In the extender (20), the main frame side connector is connected to the pins (24-1), (24-1) of the main frame αψ.
It has pins (contact points> (zef+), (26-2) and (26-3) corresponding to (24-2) and (24-3), respectively, and the circuit board side connector is connected to the ECL circuit board (12-1).
pin (contact '> (30=1), pin (28-1) corresponding to (30-2) and (30-3), respectively
8-2) and (28-3). Pin (26-1)
, (26-2) and (26-3) are the bins (284), respectively.
), (2B-2) and (28-3). A voltage divider consisting of resistors (32) and (34) is connected to pin (
26-2) and (26-3), and the values of these resistors (32) and (34) are, for example, 3, respectively.
．． 3 Ω and 2.01 (Ω. Also, the resistor (32
) and (34) are connected to the non-inverting input terminal of the operational amplifier (36).

The output and the inverting input of the operational amplifier (36) are interconnected, so that the operational amplifier (36) acts as an impedance converter. Also, the pin (
A terminating resistor (38) having a small resistance value of, for example, 100Ω is connected between the signal path (40) between the signal path (264) and (28-1) and the output end of the operational amplifier (36). In addition, in FIG. 3, in order to simplify the explanation of the present invention, only the pin portion of the connector is shown.

ilI! When performing J alignment or repair, as shown in Figures 2 and 3, the main frame 00) and ECL circuit board (
, 124), and the corresponding pins are interconnected. At this time, since the voltage at pins (26-2) and (26-3) is +3 volts, the voltage at the non-inverting input terminal of the operational amplifier (36) is +3 volts.

Thus, the signal path (40) is terminated to +3 volts through the termination resistor (38), eliminating reflections of the E CL signal. The ECL signal may be applied from the main frame 00) or the ECL circuit board (12-1). Also, at this time ECL
Pins (3O-2) and (3) of circuit board 4 & (12-1)
0-3) is supplied with a voltage of +3 volts from the main frame α0) via an extender (20).

FIG. 4 shows an example in which the present invention is applied to, for example, a TTL circuit board.
The TTL signal signal port connector is the TTL signal signal port 1 pin (contact) (42-1), and the second pin (contact) to which an appropriate voltage, for example +5 volts, is applied from the power supply in the main frame 00). (42-2) and a grounded third pin (contact) (42-3). 1st pin (42-1)
(7) TTL circuit (not shown) in the main frame (10)
connected to. The TTL circuit board (12-2) is connected to the extender (
20) circuit board side connector pin (28-1), (
Pins (44) corresponding to (28-2) and (28-3), respectively.
-1) +' (44-2) and (44-3). Note that as the extender (20), one similar to that shown in FIG. 3 is used.

When making adjustments or repairs, please refer to Figures 2 and 4.
As shown in the figure, the main frame aω and the TTL circuit board (
12-2) and the corresponding pins are connected to each other. Resistors (32) and (34) divide the difference between +5 volts at pin (26-2) and ground potential at pin (26-3), so that the non-inverting input of operational amplifier (36) has For example, a voltage of 1.9 volts appears.

Therefore, the TTL signal path (40) is provided with a voltage of 1.9 volts through the terminating resistor (38). Note that the driving signal from the TTL driver (not shown) has a peak level of 2 volts or more and a low level of 0.7 volts or less. However, this 1.9 volt voltage is TTL
Does not affect the signal. This is because the pull-up ability (ability to flow current) of the TTL signal is not good, so when the signal path (40) is at a high level, the voltage drop across the resistor (38) is 1.
This is because the voltage drop across the resistor (38) can be increased when the signal path (40) is at a low level because the signal path (40) has a small value and has a good pull-down ability (ability for current to flow into it). Note that this voltage needs to be close to the high level of the TTL signal, so for example 1.9 volts is used here. In this way, the same extender can be used for ECL and T
Can be used for both TL circuit boards.

Note that in the above embodiment, ECL and 'T'TL logic signals are transmitted, but by considering the logic operating range (low and high levels) and termination state, other logic signals can be transmitted similarly. Of course, if the pull-up and pull-down capabilities are equal for the 20th chic signal which does not require termination at the scrap pins (24-2) and (24-3) in FIG. Set the output voltage of the voltage divider to an intermediate value between high and low levels, and if the pull-amplification ability is not good, set the voltage divider output voltage near the high level, and if the pull-down ability is not good, set the voltage divider output to a low level. It is sufficient to set it near the voltage level.It is also possible to apply a voltage of -2 volts and apply an ECL of -5.2 volts to the present invention.Also, the power supply voltage and the resistor of the voltage divider can be set to Any desired value may be used as long as it satisfies the signal transmission conditions.Furthermore, the extender may be a flanted cable with a connector and termination circuit, and the buffer may be an emitter follower transistor or voltage follower FET.

Effects of the Invention As described above, according to the present invention, an extender having at least a two-signal voltage divider, a buffer, and a terminating resistor is removably installed between the main frame and the circuit board, and the extender is When a 10th chic signal such as an E'CL signal flows through the signal path, the buffer output is adjusted such that the 10th chic signal is properly terminated, and when a 20th chic signal such as a TTL signal flows, In order to prevent the voltage from affecting this 20th switch signal, a predetermined voltage is applied to each voltage divider from the main frame 1, so that it can be connected to the ECL and 'I'TL connectors independently of the terminating resistor. It is now possible to use an extender for all connectors, and the 10th pick signal is automatically terminated without adversely affecting the 20th pick signal.

Of the drawing? 1ilit explanation Figure 1 is a side view of an electronic device with a built-in circuit board, with its side panel removed. Figure 2 is a side view of an electronic device with a circuit board connected to it via an extender. A side view with the panel removed, FIG.
A circuit diagram showing an example when applied to a CL1 circuit board,
FIG. 4 is a circuit diagram showing another embodiment in which the present invention is applied to a TTL circuit board.

aω is the main frame, (12-1) is the ECL circuit board i,
(12-2) is a TTL circuit board, (20) is an extender, (
24-1) , (24-2) , (24-3) , (2
6-1), (26-2).

(26-3) , (28-1) , (2B-2) , (
2B-3), (30-1).

(30-2), (30-3) are bins (contacts), (32
).

(34) is a voltage dividing resistor, (36) is an operational amplifier, (3
8) is a terminating resistor, and (40) is a signal path.

10 Male 21st layer

Claims (1)

[Claims] An extension device that can be inserted and removed between the main frame and the circuit board, the signal path being connected between a predetermined first contact point of the connection means for the upper frame and the circuit board, and both input ends for the main frame. an extension device comprising: a voltage divider connected between predetermined second and third contacts of said connecting means; and a terminating resistor connected between said signal path and an output of said voltage divider.