DE102013111975B3 - Printed circuit board, apparatus and method for identifying a computer system type - Google Patents

Abstract

The invention relates to a printed circuit board (1) with a fastening device (3 ', 3' ') which is adapted to fix the printed circuit board (1) to a housing (6a, 6b). The fastening device (3 ', 3' ') is in this case electrically connected to a connection (9', 9 '') of a microcontroller (2) arranged on the printed circuit board (1). The fixing device (3 ', 3' ') is further electrically connectable to a reference point on the housing (6a, 6b) by fixing the circuit board (1) to the housing (6a, 6b). The microcontroller (2) is in this case configured to determine a potential at the connection (9 ', 9' ').

Description

The invention relates to a printed circuit board, an arrangement of a printed circuit board and a method for identifying a computer system type.

To save development and manufacturing costs, unified motherboards are used in different computer systems, if possible. Each motherboard has a microcontroller to control server functions. For various functions, such as fan control, it is necessary for a firmware of the microcontroller to know in which computer system the motherboard is located. This information can be programmed into the microcontroller, for example, during production. It is also possible to manually set this information via a so-called jumpers arranged on the motherboard. These solutions either require extra effort during production or configuration time after completion of the computer system.

From the DE 20 2013 191 618 U1 An arrangement with a carrier plate of a computer housing and a spacer element for fastening a printed circuit board to the carrier plate is known.

From the DE 10 207 040 985 B3 For example, a computer and method for mounting a printed circuit board to a carrier sheet is known. Herein, a printed circuit board can be placed without force and counter-pressure of an elastic element on the stop of a stud bolt and moved relative to this.

The DE 10 2005 061 824 B4 describes a computer housing with a carrier plate, which is adapted for mounting a printed circuit board. The computer housing has at least one stud for attaching the printed circuit board, which is arranged on the support plate. The circuit board has a Bolzenfuß and a bolt head over it, which are designed so that the circuit board can be used.

The patent DD 294358 A5 describes an arrangement for coupling a plurality of potential-free contacts, whereby a simple connection between the microprocessor and potential-free contacts is made possible.

The object of the invention is to provide devices and a method which allow a simplified recognition of a system configuration.

According to a first aspect, the object is achieved by a printed circuit board with at least one fastening device. The at least one fastening device is set up to fix the printed circuit board to a housing.

Here, the at least one fastening device is electrically connected to a terminal of a microcontroller arranged on the printed circuit board. The at least one fastening device is further electrically connectable to a reference point on the housing by securing the circuit board to the housing. The microcontroller is hereby set up to determine a potential at the connection.

Usually, printed circuit boards are fixed with fastening devices on a housing. This can be, for example, mounting holes in the circuit board. According to the first aspect, at least one fastening device is now connected to a terminal of the microcontroller and is then connected to a reference point when the fastening device is used, for example by screwing in a screw. The microcontroller now measures a potential at the terminal. This makes it possible to determine whether or not the fastening device is used.

According to an advantageous embodiment, the fastening device is connected via a resistor to the terminal of the microcontroller. The resistor connected to the fastening device serves, for example, as a series resistor. For example, the microcontroller has a programmable I / O port that can be configured as a down-loop with and without a pull-up resistor. The housing is in the example to a ground potential. If the pull-in input mode has been selected in the microcontroller for the I / O connection, the microcontroller receives various potentials at its I / O connection, depending on whether a screw is screwed into the mounting hole or not.

According to a further advantageous embodiment, the circuit board comprises a plurality of fastening devices, which are each connected to a separate terminal of the microcontroller. The microcontroller is hereby set up to determine a potential at each of these connections.

If individual fastening devices are connected to a plurality of terminals of the microcontroller, which can be grounded, for example, when used to secure the printed circuit board, this increases the number of possible combinations that contribute to the identification of a computer system type. The fastening devices can hereby for example, to set a binary code.

In a further advantageous embodiment, the printed circuit board comprises a plurality of fastening devices. The fastening devices are connected to the terminal of the microcontroller via a plurality of resistors such that different sums of a resistance value are present between the terminal and in each case one fastening device.

If a plurality of fastening devices are connected to a single terminal of the microcontroller via a network of resistors and a voltage is applied, it can be determined by determining the potential which of the fastening devices is connected to the housing. In this case, the different resistances reduce inherent voltages characteristically for different computer system types.

According to a second aspect, the object is achieved by an arrangement with a printed circuit board according to the first aspect in a housing of a computer system. The housing is in this case designed such that attachment points of the housing are arranged in alignment with fastening devices of the circuit board. Here, a number and / or the arrangement of attachment points are characteristic of a computer system type.

A housing has attachment points on which a circuit board can be specified. For example, screws are screwed into the fastening points by fastening devices, in particular fastening bores of the printed circuit board. Typically, these attachment locations are arranged such that the circuit board is spaced from a housing wall to electrically isolate a back side of the circuit board from the housing wall. In addition, fastening devices of the printed circuit board are connected to fastening points such that the fastening devices are connected to a reference point, in particular a ground point. The attachment locations are located in the housing of the computer system so that different types of computer systems have different numbers and / or locations of attachment locations. Thus, the printed circuit board can be fixed to the housing of the computer system with a certain number of fastening devices. Here, individual fasteners are used, other fasteners are not used here. A combination of the used and unused fasteners, at least one of which is connected to a port of the microcontroller, can be used to determine which type of computer system is being used.

• – Bestimmen eines Potentials an einem mit wenigstens einer Befestigungsvorrichtung verbundenen Anschluss eines Mikrocontrollers; und
• – Identifizieren des Computersystemtyps basierend auf dem bestimmten Potential durch Abgleichen mit gespeicherten Referenzwerten.

According to a third aspect, the object is achieved by a method for identifying a computer system type for an arrangement with a printed circuit board according to the second aspect. The method comprises the steps here

• Determining a potential at a terminal of a microcontroller connected to at least one fastening device; and
• Identifying the computer system type based on the determined potential by matching with stored reference values.

A fastening device is connected to a terminal of a microcontroller. Here, the fastening device may be connected via a resistor to the terminal. By determining a potential, the microcontroller can distinguish at least between two states, a state in which the fastening device is used and a state in which it is not used. Now, when stored in a memory, the state in which the fixture is used correlates to a first type of computer system, then by comparing the determined potential with the stored reference values, it can be identified in which type of computer system the microcontroller and thus the circuit board is located.

According to an advantageous embodiment, the step of determining a potential for a plurality of terminals of the microcontroller is repeated.

• – Bestimmen jeweils eines logischen Werts zu jedem Ergebnis der wiederholten Schritte des Bestimmens eines Potentials; und
• – Ermitteln eines Codes aus den bestimmten logischen Werten der einzelnen Anschlüsse, der für einen Computersystemtyp charakteristisch ist.

According to a further advantageous embodiment, the method additionally comprises the steps

• Determining a logical value for each result of the repeated steps of determining a potential; and
• Determine a code from the particular logical values of the individual ports that is characteristic of a computer system type.

If not only a mounting device is provided in the computer system for determining the computer system type, then multiple ports of the microcontroller may be used to determine a potential at each of the ports. This increases the number of computer system types that can be distinguished. If a logical value is determined for each particular potential, for example there is a logical 1 or a logical 0 for each connection. The individual results of this determination can be combined into a binary number having as many locations as there are attachment devices connected to terminals of the microcontroller. This results in a code that is characteristic of a computer system type. The number of different Computer system types are then 2n, where n is the number of fasteners connected to terminals of the microcontroller.

The invention will be explained in more detail below with reference to embodiments and figures. In the figures show:

1 a schematic representation of a printed circuit board according to an embodiment of the invention,

2 a schematic representation of an arrangement of a printed circuit board in a first housing;

3 a schematic representation of an arrangement of the circuit board in a second housing; and

4 a flowchart for a method according to an embodiment of the invention.

1 shows a circuit board 1 , The circuit board 1 is a motherboard of a computer system, such as a server. On the circuit board 1 is a microcontroller 2 arranged. In the microcontroller 2 it is a baseboard management controller, abbreviated to BMC. The microcontroller 2 is designed to take over control functions of the computer system. For example, the microcontroller controls 2 Fan speeds of fans, which are arranged in the computer system. The circuit board 1 has fastening devices 3 on. In the embodiment, the fastening devices 3 Mounting holes. The fastening devices 3 However, they can also be mounting clips or other devices that hold the circuit board 1 can be arranged in a computer system. In the embodiment, the fastening devices 3 on the circuit board with a mass 10 connected. About this, the housing is placed to shield a ground potential.

In addition, a first fastening device 3 ' and a second attachment device 3 '' in each case individually from the remaining fastening devices 3 isolated on the circuit board 1 arranged. The first fastening devices 3 ' is via an electrical connection 4 ' with a resistance 5 ' and a connection 9 ' of the microcontroller 2 connected. The second fastening device 3 '' is via an electrical connection 4 '' with a resistance 5 '' and a connection 9 '' of the microcontroller 2 connected. The resistors 5 ' and 5 '' for example, have a value of 100 Ω. The resistance 5 ' is between the first attachment device 3 ' and the connection 9 ' connected. The resistance 5 '' is between the second attachment device 3 '' and the connection 9 '' connected. The connections 9 ' . 9 '' are programmable I / O connections. Thus arises for the first and the second fastening device 3 ' . 3 '' one connection each via the resistor 5 ' . 5 '' and an electrical connection 4 ' . 4 '' to a separate connection 9 ' . 9 '' of the microcontroller 2 ,

2 shows an arrangement of a printed circuit board 1 in a housing 6a , The housing 6a has attachment points 7 on. The circuit board 1 is with fasteners 8th on the housing 6a established. In the exemplary embodiment, the fastening means 8th Screws through the fasteners 3 and the first attachment device 3 ' are screwed in and the circuit board 1 at the attachment points 7 of the housing 6a set mechanically and electrically. The housing 6a in this case represents a mass point. In addition, the fastening devices 3 interconnected. In addition, a fastener 8th mechanically and electrically with the first attachment device 3 ' connected. The first fastening device 3 ' is about the electrical connection 4 ' as well as the resistance 5 ' with the microcontroller 2 connected. Thus, the first attachment device becomes 3 ' as well as the fastening devices 3 with mass 10 connected. The housing 6a sees attachment points 7 each aligned with the fastening devices 3 and aligned with the first attachment device 3 ' in front. Escaping with the second attachment device 3 '' is no attachment point 7 intended. Thus, the circuit board 1 only on the fastening devices 3 and the first fastening device 3 ' be determined. The second fastening device 3 '' remains unused because it does not have an attachment point 7 of the housing 6a can be connected. This configuration is for a first computer system type. The arrangement and the number of attachment points 7 are characteristic of this very computer system type.

In 3 is a similar arrangement as in 2 shown. Here, the two arrangements differ in that the housing 6b according to the arrangement 3 , compared to the case 6a according to the arrangement 2 a different arrangement of attachment points 7 having. attachment points 7 are according to 3 in alignment with the fastening devices 3 , as well as the second fastening device 3 '' arranged. Escaping with the first attachment device 3 ' there is no attachment point 7 , The circuit board 1 is about the fasteners 3 , as well as the second fastening device 3 '' with fasteners 8th at the attachment points 7 of the housing 6b established. The circuit board 1 is not the first in this embodiment fastening device 3 ' on the housing 6b set as the case 6b no attachment point 7 in alignment with the first attachment device 3 ' provides.

The second fastening device 3 '' is electrically via the electrical connection 4 '' and the resistance 5 '' with the connection 9 '' of the microcontroller 2 connected.

4 shows a flowchart for a method according to an embodiment of the invention. Performs a microcontroller 2 By following the procedure described below, he can determine in which computer system type the circuit board 1 located. The microcontroller 2 is here on a circuit board 1 arranged as to the 1 to 3 described.

In one step 11 will be for every connection 9 ' . 9 '' that with the first or the second attachment device 3 ' . 3 '' connected, a potential determined. For this purpose, a voltage is applied to the connections 9 ' and 9 '' of the microcontroller 2 created, via the electrical connection 4 ' and the resistance 5 ' with the first attachment device 3 ' and about the electrical connection 4 '' and the resistance 5 '' with the second fastening device 3 '' are connected. The microcontroller 2 create the tensions yourself. In the exemplary embodiment, this happens because the microcontroller has its connections 9 ' . 9 '' Switches from the input mode without pull-up resistor to the mode input with pull-up resistor. In another embodiment, the voltage is applied by an external voltage generator. In a further alternative embodiment, a voltage across the corresponding housing 6a , respectively. 6b or a power supply at an attachment point 7 created.

In the following, the arrangement according to 2 Reference is made in the circuit board 1 in a housing 6a is arranged, in which an attachment point 7 in alignment with the first attachment device 3 ' is arranged. By the fastener 8th Here is the first attachment device 3 ' with the attachment point 7 , which are aligned with the first fastening device 3 ' is arranged, connected. Herewith is the appropriate connection 9 ' of the microcontroller 2 about the resistance 5 ' and the electrical connection 4 ' on a mass 10 drawn. At the first attachment device 3 ' belonging connection 9 ' is thus the potential with mass 10 connected and low.

The second fastening device 3 '' is not used. Thus, the corresponding connection 9 '' of the microcontroller 2 , in turn, via the electrical connection 4 '' and the resistance 5 '' with the second fastening device 3 '' connected, not with mass 10 connected. At the to the second fastening device 3 '' belonging connection 9 '' the potential is greater than that to the first attachment device 3 ' belonging connection 9 ' because the second fastening device 3 '' not on earth 10 is drawn.

Thus, in step 11 for the connection 9 ' that with the first fixing device 3 ' connected is a low potential determined. For the connection 9 '' that with the second attachment device 3 '' is connected, a high potential is determined.

In step 12 gets each of the results from the step 11 assigned a logical value. For example, the connection gets 9 ' whose potential is low is a logical 0 and the terminal 9 '' , whose potential is high, a logical 1. Of course, the logical values can also be assigned upside down.

In step 13 becomes out of the logical values of step 12 a code is determined. In the exemplary embodiment, a binary number is determined from the individual logical values, which corresponds to a sequence of the individual logical values from the previous steps. Since with the first attachment device 3 ' connected connection 9 ' has received a logical 0 and that with the second fastening device 3 '' connected connection 9 '' has received a logical 1 corresponds to the code in step 13 is determined a 1 (binary: 01). Be the steps 11 . 12 and 13 to the arrangement according to 3 performed, so are the logical values, in step 12 , for the connection 9 ' that with the first fixing device 3 ' connected, a logical 1 and to the terminal 9 '' the with the second fastening device 3 '' connected, a logical 0. The in step 13 resulting code corresponds to a 2 (binary: 10).

In step 14 Now the computer system type is determined. The microcontroller compares this 2 the determined code with a stored reference value. In the exemplary embodiment, a distinction can be made between four computer system types, since the first fastening device 3 ' and the second attachment device 3 '' a total of four binary codes can be represented. Thus, in addition to the above-described codes, a 0 (binary: 00, in a connection of the first and the second fastening device 3 ' . 3 '' at appropriate attachment points 7 ) and a 3 (binary: 11; if none of the fixtures 3 ' . 3 '' used).

In another embodiment are in the circuit board 1 not two fasteners 3 ' and 3 '' connected to terminals 9 ' . 9 '' of the microcontroller 2 are provided, but only a first fastening device 3 ' that about the resistance 5 ' and the electrical connection 4 ' with the connection 9 ' connected is. In such a configuration can be distinguished accordingly only between two different computer system types. Likewise, further fastening devices can be provided. In general, the number of fastening devices 3 , as well as the microcontroller 2 connected are not limited. A number of fasteners attached to terminals of the microcontroller 2 can be chosen so that by the binary code from the combination possibilities of the two fastening devices 3 ' . 3 '' all computer system types that may be considered, the circuit board 1 take.

In another embodiment, not shown, all electrical connections 4 ' . 4 '' at exactly one connection 9 ' of the microcontroller 2 connected. Between the exactly one connection 9 ' and the respective fastening devices 3 ' . 3 '' are resistors 5 ' . 5 '' connected. In addition, further resistors may be arranged on a common part of the electrical connection, which resistor has a resistance sum for all conduction paths between the one connection 9 ' and the individual fastening devices 3 ' . 3 '' increase. By the resistances 5 ' . 5 '' results for each conduction path between the terminal 9 ' and the associated fastening devices 3 ' . 3 '' a unique, characteristic sum of resistances between the terminal 9 ' and the respective fastening devices 3 ' . 3 '' , Is attached to the case 6a . 6b a voltage applied, here by a power supply of the computer system, so the microcontroller can determine by a measurement of a voltage drop across a measuring resistor, which fastening device 3 ' . 3 '' connected to the housing.

LIST OF REFERENCE NUMBERS

1

circuit board

2

microcontroller

3

fastening device

3 '

first fastening device

3 ''

second fastening device

4 ', 4' '

electrical connection

5 ', 5' '

resistance

6a, 6b

casing

7

fastening point

8th

fastener

9 ', 9' '

connection

10

Dimensions

11 to 14

steps

Claims (10)

Printed circuit board ( 1 ) with at least one fastening device ( 3 ' . 3 '' ), which is adapted to the printed circuit board ( 1 ) on a housing ( 6a . 6b ), wherein the at least one fastening device ( 3 ' . 3 '' ) electrically with a connection ( 9 ' . 9 '' ) one on the printed circuit board ( 1 ) arranged microcontroller ( 2 ) and with a reference point on the housing ( 6a . 6b ) electrically by setting the circuit board ( 1 ) on the housing ( 6 ) is connectable and wherein the microcontroller is adapted to a potential at the terminal ( 9 ' . 9 '' ). Printed circuit board ( 1 ) according to claim 1, wherein the at least one fastening device ( 3 ' . 3 '' ) comprises a mounting hole. Printed circuit board ( 1 ) according to one of claims 1 or 2, wherein the at least one fastening device ( 3 ' . 3 '' ) via a resistor ( 5 ' . 5 '' ) with the connection ( 9 ' . 9 '' ) of the microcontroller ( 2 ) connected is. Printed circuit board ( 1 ) according to one of claims 1 to 3, wherein the printed circuit board ( 1 ) a plurality of fastening devices ( 3 ' . 3 '' ), each with a separate connection ( 9 ' . 9 '' ) of the microcontroller ( 2 ) and the microcontroller ( 2 ) is set up at each of these ports ( 9 ' . 9 '' ) to determine a potential. Printed circuit board ( 1 ) according to one of claims 1 to 3, wherein the printed circuit board ( 1 ) a plurality of fastening devices ( 3 ' . 3 '' ), which is connected via a plurality of resistors with a connection ( 9 ' ) of the microcontroller ( 2 ) are connected between the connection ( 9 ' ) and in each case a fastening device ( 3 ' . 3 '' ) different sums of a resistance value are present. Arrangement with a printed circuit board ( 1 ) according to one of claims 1 to 5 in a housing ( 6 ) of a computer system, wherein the housing is designed such that attachment points ( 7 ) of the housing ( 6a . 6b ) in alignment with fastening devices ( 3 . 3 ' . 3 '' ) of the printed circuit board ( 1 ) are arranged, and that a number and / or the arrangement of attachment points ( 7 ) are characteristic of a computer system type. Arrangement according to claim 6, wherein the fastening devices ( 3 . 3 ' . 3 '' ) Mounting holes and the printed circuit board ( 1 ) by means of screws screwed into the fastening bores on the housing ( 6a . 6b ). A method of identifying a computer system type for a circuit board assembly ( 1 ) according to one of claims 6 or 7, comprising the steps: - determining a potential at a connection connected to at least one fastening device ( 9 ' . 9 '' ) of a microcontroller ( 2 ); and identifying the computer system type based on the determined potential by matching at least one stored reference value. The method of claim 8, wherein the step of determining a potential for a plurality of terminals connected to associated fixtures ( 9 ' . 9 '' ) is repeated. The method of claim 9, further comprising the steps of: each determining a logical value for each result of the repeated step of determining a potential; and - determining a code from the particular logical values of the individual ports ( 9 ' . 9 '' ), which is characteristic of a computer system type.

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