CN103729272A - Testing device with multiple connection ports - Google Patents

Abstract

A testing device with multiple connection ports comprises a plurality of first connection ports, a plurality of second connection ports, a switchover unit and a control unit. The types of the first connection ports are different from one another. The second connection ports are connected to the first connection ports in a coupled mode respectively, wherein the types of the second connection ports correspond to the types of the first connection ports respectively. The switchover unit is connected between the first connection ports and the second connection ports in a coupled mode and used for connecting one first connection port with the corresponding second connection port in a coupled mode according to control signals. The control unit is connected with the switchover unit in a coupled mode and used for generating the control signals.

Description

There is the proving installation of multi-link port

Technical field

The present invention relates to a kind of proving installation, particularly a kind of proving installation with multi-link port.

Background technology

Before system computer, servomechanism etc. is dispatching from the factory, all can carry out a series of functional test, to guarantee that its all function can normal operation.In Blade Server (Blade Server), on the motherboard of the servomechanism of different machines, connectivity port that can the dissimilar test card of configuration, and these Connection Cards are in order to connect hard disk (SAS_HDD), to carry out the test between motherboard and the hard disk of connectivity port of same type.

Because these test cards have different types separately, also make the type of the connectivity port that these test cards configure also not identical, for example there are rectangle, square etc.Therefore, need to, according to dissimilar connectivity port, produce corresponding test card, and also must the arrange in pairs or groups motherboard of servomechanism of corresponding machine of every test card could use, to carry out the test between motherboard and hard disk.Thus, can increase the production cost of test card and the time of test.

Summary of the invention

In view of above problem, the object of the present invention is to provide a kind of proving installation with multi-link port, use and there is multiduty function, and can reduce the time of changing test card and test, and reduce production costs.

A kind of proving installation with multi-link port that the present invention discloses, comprises multiple the first connectivity ports, multiple the second connectivity port, switch unit and control module.The type difference of aforementioned the first connectivity port.Aforementioned the second connectivity port couples respectively aforementioned the first connectivity port, and the type of the second connectivity port type of corresponding the first connectivity port respectively.Switch unit is coupled between the first connectivity port and the second connectivity port, in order to according to control signal, by the first connectivity port wherein one be coupled to the second corresponding connectivity port.Control module couples switch unit, in order to produce control signal.

In one embodiment, the type of aforementioned the first connectivity port comprises the shape of connectivity port and the quantity of the wire that is connected with connectivity port.

In one embodiment, aforementioned control module is also according to the set condition of jumper wire device, and the corresponding control signal that produces.

In one embodiment, the aforementioned proving installation with multi-link port also comprises detecting unit.This detecting unit couples the first connectivity port and control module, in order to detect the connection status of each the first connectivity port, and according to connection status, produces detection signal to control module, makes the corresponding control signal that produces of control module.

In one embodiment, aforementioned the first connectivity port and the second connectivity port have the connectivity port of warm connection function.

A kind of proving installation with multi-link port that the present invention discloses, it disposes dissimilar multiple the first connectivity ports and the second connectivity port, and utilize control module control switch unit to switch, so that the first identical type connectivity port and the second connectivity port are coupled.Thus, make the proving installation with multi-link port there is multiduty function, and can reduce the time of also changing test card and test, and reduce production costs.

Below in conjunction with the drawings and specific embodiments, describe the present invention, but not as a limitation of the invention.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the proving installation with multi-link port of the present invention;

Fig. 2 is that of the present invention another has the schematic diagram of the proving installation of multi-link port.

Wherein, Reference numeral

100,200 proving installations with multi-link port

111,112,113 first connectivity ports

121,122,123 second connectivity ports

130 switch units

140 control modules

150 jumper wire devices

210 detecting units

CS control signal

Embodiment

In cited each embodiment, will represent same or analogous element with identical label below.

Please refer to shown in Fig. 1 its schematic diagram that is the proving installation with multi-link port of the present invention.The proving installation 100 with multi-link port comprises multiple the first connectivity ports 111,112,113, multiple the second connectivity port 121,122,123, switch unit 130 and control module 140.Wherein, the first connectivity port 111,112,113 is for example in order to connect with connectivity port corresponding on motherboard, and the second connectivity port 121,122,123 is in order to for example, to be connected with the dissimilar corresponding connectivity port of hard disk (SAS_HDD), to carry out test relevant between motherboard and hard disk.

In the present embodiment, the type of the first connectivity port 111,112,113 differs from one another.Wherein, the type of aforementioned the first connectivity port comprises the shape of connectivity port and the quantity of the wire that is connected with connectivity port.For instance, suppose the square that is shaped as of the first connectivity port 111, and with the quantity of the wire of the first connectivity port 111 be 8; The first connectivity port 112 be shaped as rectangle, and with the quantity of the wire of the first connectivity port 112 be 12; The first connectivity port 113 be shaped as golden finger, and with the quantity of the wire of the first connectivity port 113 be 16.

The second connectivity port 121,122,123 couples respectively the first connectivity port 111,112,113, and the type of the second connectivity port 121,122,123 type of corresponding the first connectivity port 111,112,113 respectively.That is to say, corresponding the first connectivity port 111, the second connectivity port 121, and the second connectivity port 121 be shaped as square, and with the quantity of the wire of the second connectivity port 121 be 8; Corresponding the first connectivity port 112, the second connectivity port 122, and the second connectivity port 122 be shaped as rectangle, and with the quantity of the wire of the second connectivity port 122 be 12; Corresponding the first connectivity port 113, the second connectivity port 123, and the second connectivity port 123 be shaped as golden finger, and with the quantity of the wire of the first connectivity port 113 be 16.

In the present embodiment, the first connectivity port 111,112,113 and the second connectivity port 121,122,123 are for example for having the connectivity port of warm connection function, make motherboard in the situation that again not starting shooting, can carry out relevant test to hard disk to the motherboard that connects corresponding connectivity port.

Switch unit 130 is coupled between the first connectivity port 111,112,113 and the second connectivity port 121,122,123, in order to according to control signal CS, by the first connectivity port 111,112,113 wherein one be coupled to the second corresponding connectivity port.That is to say, switch unit 130, according to control signal CS, the second connectivity port 121 corresponding to the first connectivity port 111 is coupled to, the first connectivity port 112 is coupled to the second corresponding connectivity port 122 or the first connectivity port 113 is coupled to the second corresponding connectivity port 123.

Control module 140 couples switch unit 130, in order to produce control signal CS.Wherein, control module 140 is for example for complexity can programmed logic element (Complex Programmable Logic Device, CPLD).

In the present embodiment, the proving installation 100 with multi-link port also comprises jumper wire device (Jumper) 150, and jumper wire device 150 couples control module 140, and user can be by adjusting the setting of jumper wire device 150, make the control module 140 can be according to the set condition of jumper wire device, the corresponding control signal CS that produces.

For instance, the set condition of supposing jumper wire device 150 is " 01 ", and control module 140 can be according to the set condition of this " 01 ", and produces corresponding control signal CS, to control switch unit 130, the first connectivity port 111 is coupled to the second connectivity port 121.The set condition of supposing jumper wire device 150 is " 10 ", and control module 140 can be according to the setting shape of these " 10 ", and produces corresponding control signal CS, to control switch unit 130, the first connectivity port 112 is coupled to the second connectivity port 122.The set condition of supposing jumper wire device 150 is " 11 ", and control module 140 can be according to the set condition of these " 11 ", and produces corresponding control signal CS, to control switch unit 130, the first connectivity port 113 is coupled to the second connectivity port 123.

By this, user just can be according to the type of connectivity port, and adjusts the set condition of jumper wire device 150, so that the first connectivity port of same type and the second connectivity port couple, so that the test of being correlated with.As with one, the proving installation 100 with multi-link port can have multiduty function, and at the motherboard of the different connectivity ports of test type during with hard disk, the time of test card and test is also changed in minimizing, and reduces production costs.

In the aforementioned embodiment, the quantity of the first connectivity port and the second connectivity port illustrates take 3 as example, but the invention is not restricted to this, and the quantity of the first connectivity port and the second connectivity port can be more than 2 or 3.Wherein, the first connectivity port is identical with the quantity of the second connectivity port, and the type of the second connectivity port type of corresponding the first connectivity port one to one.

Please refer to shown in Fig. 2, it has the schematic diagram of the proving installation of multi-link port for of the present invention another.The proving installation 200 with multi-link port comprises multiple the first connectivity ports 111,112,113, multiple the second connectivity port 121,122,123, switch unit 130, control module 140 and detecting unit 210.Wherein, the first connectivity port 111,112,113, the second connectivity port 121,122,123, switch unit 130 can be with reference to the explanation of the embodiment of figure 1, therefore do not repeat them here with the relation that couples and the associative operation of control module 140.

In the present embodiment, detecting unit 210 couples the first connectivity port 111,112,113 and control module 140, in order to detect the connection status of each the first connectivity port 111,112,113, and according to connection status, produce detection signal to control module 140, make the corresponding control signal CS that produces of control module 140.That is to say, detecting unit 210 for example detects the connection status of the first connectivity port 111,112,113 and connectivity port corresponding on motherboard.

For instance, when detecting unit 140 detects that the first connectivity port 111 connects with connectivity port corresponding on motherboard, the detection signal that detecting unit 210 for example produces " 01 " is to control module 140.Then, control module 140 is just according to the detection signal of " 01 ", and the corresponding control signal CS that produces, to switch unit 130, makes switch unit 130 automatically the first connectivity port 111 is coupled to the second connectivity port 121.So, user just can carry out relevant test to the motherboard and the hard disk that connect to the first connectivity port 111 and the second connectivity port 121.

When detecting unit 140 detects that the first connectivity port 112 connects with connectivity port corresponding on motherboard, the detection signal that detecting unit 210 for example produces " 10 " is to control module 140.Then, control module 140 is just according to the detection signal of " 10 ", and the corresponding control signal CS that produces, to switch unit 130, makes switch unit 130 automatically the first connectivity port 112 is coupled to the second connectivity port 122.So, user just can carry out relevant test to the motherboard and the hard disk that connect to the first connectivity port 112 and the second connectivity port 122.

When detecting unit 140 detects that the first connectivity port 113 connects with connectivity port corresponding on motherboard, the detection signal that detecting unit 210 for example produces " 11 " is to control module 140.Then, control module 140 is just according to the detection signal of " 11 ", and the corresponding control signal CS that produces, to switch unit 130, makes switch unit 130 automatically the first connectivity port 113 is coupled to the second connectivity port 123.So, user just can carry out relevant test to the motherboard and the hard disk that connect to the first connectivity port 113 and the second connectivity port 123.

As with one, the proving installation 200 with multi-link port also can have multiduty function, and can reduce the time of also changing test card and test, and production cost.

The proving installation with multi-link port of embodiments of the invention, it disposes dissimilar multiple the first connectivity ports and the second connectivity port, and utilize control module according to the set condition of jumper wire device or the detection signal of detecting unit, to control switch unit, switch, and then the first identical type connectivity port and the second connectivity port are coupled.Thus, make the proving installation with multi-link port there is multiduty function, and can reduce the time of also changing test card and test, and reduce production costs.

Certainly; the present invention also can have other various embodiments; in the situation that not deviating from spirit of the present invention and essence thereof; those of ordinary skill in the art are when making according to the present invention various corresponding changes and distortion, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of the present invention.

Claims (5)

1. a proving installation with multi-link port, is characterized in that, comprising:

Multiple the first connectivity ports, the type difference of those the first connectivity ports;

Multiple the second connectivity ports, couple respectively those the first connectivity ports, and the type of respectively corresponding those the first connectivity ports of the type of those the second connectivity ports;

One switch unit, is coupled between those first connectivity ports and those the second connectivity ports, and in order to foundation one control signal, by those first connectivity ports, one of them is coupled to this corresponding second connectivity port; And

One control module, couples this switch unit, in order to produce this control signal.

2. the proving installation with multi-link port according to claim 1, is characterized in that, the type of those the first connectivity ports comprises the shape of connectivity port and the quantity of the wire that is connected with connectivity port.

3. the proving installation with multi-link port according to claim 1, is characterized in that, this control module is the set condition of foundation one jumper wire device also, and corresponding this control signal that produces.

4. the proving installation with multi-link port according to claim 1, is characterized in that, also comprises:

One detecting unit, couple those first connectivity ports and this control module, in order to detect a connection status of each those the first connectivity port, and according to those connection status, produce a detection signal to this control module, make corresponding this control signal that produces of this control module.

5. the proving installation with multi-link port according to claim 1, is characterized in that, those first connectivity ports and those the second connectivity ports have the connectivity port of warm connection function.

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