DE4135362A1 - Error-correcting coding circuit for vehicular automatic transmission - has additional parity bit lines wired to control unit contg. evaluation table for three-digit codeword - Google Patents

Abstract

The appts. conveys information bits of a gear selector lever position code by three lines (L1-L3), and parity bits by three additional lines (L4-L6) for checking the bit positions of the first three lines (L1,-L3) pairwise. Three parallel rows of fixed contacts are provided so that in each possible position of the lever (1), voltage is present on at most three different contacts or three of the six lines (L1-L6). ADVANTAGE - Position of selector lever can be detected unambiguously even in presence of single coding error due e.g. to open- or short-circuited lines.

Description

The invention relates to an electrical switching device for automatic transmissions according to the preamble of the claim 1.

Such an electrical switching device is from series motor vehicles with electronically controlled automatic transmissions known. Has an electronically controlled automatic transmission an electronic transmission control unit that is used to record the am Position selector set position (P, R, N, D ...) min at least receives an input signal.

For example, an automatic transmission is known, the Ge drive control unit the position set on the position selector lever in the form of a position code over four lines. These four lines connected to the gearbox control unit lead to an electrical switching device in the housing of the Position selector lever. In this known automatic transmission the position selector lever has seven positions (P, R, N, D, 3, 2, 1) assigned. To represent these seven positions by binary code words, a four bit position code is used. The four bits of the position code are in the known electri the four lines connected to the transmission control connected, assigned:  

The code is made using fixed contacts in the housing of the Positi selector lever generated in any position with the cables are connected, according to the corresponding position code word is assigned a logical one. The fixed contacts be at least one sliding contact, which is firmly connected to the Position selector lever is connected to voltage. The so voltages present on the corresponding lines from the gearbox control unit to the logical voltage level One implemented. For example, the position selector lever is up Position P becomes one on line 1 and one on line 2 connected fixed contact connected to voltage. The lines 3 and 4 are not live in position P. The Transmission control unit sets the analog voltage levels of the four Lines into the position code word 1100 um and recognizes from this that the position selector lever is in position P.

Occurs through Un in the automatic transmission mentioned as an example If one of the four lines breaks, an error is detected Transmission control unit in some cases a position other than the one set by the position selector lever. Located at for example, the position selector in position R and is on  Line 4 before an interruption, recognizes the transmission control unit position code 1000 and concludes that position 2 is inserted. This is a wrong reaction of the transmission control unit possible. Another malfunction would be if interrupted Line 1 is present when the driver uses the position selector lever set to position 1, for example when driving downhill To prevent upshifts. The automatic transmission shifts but up to third gear, since the transmission control unit Po sition 3 recognizes.

Accordingly, are in the known electrical switching devices Malfunctions of the gearbox control unit even with simple errors or the transmission possible, the unpleasant consequences for the Driver could cause.

The invention has for its object an electrical switching to create a facility with which even in the presence of an on the position set on the position selector lever is clearly recognizable to prevent malfunctions.

This is achieved by the features of claim 1.

The position code according to the invention is when On occurs Technical errors can be corrected. For example, a simple error occurs by an interruption or short circuit to one of the Lines forming position code. Each line corresponds a bit position of a position code word. A simple mistake on egg ner line means that one bit position for all position code words has the same logic voltage level and thus no longer to distinguish the individual positions contributes codewords. The remaining, not affected by errors NEN bit positions are sufficient for the position code according to the invention to distinguish each position code word from the other.  

This error correctability is independent of which of the bits make mistakes.

With this switching device according to the invention is a unique permanent detection of the inserted position when operating correctly and possible when simple errors occur. Furthermore the gearbox control unit can diagnose the type and location of the fault and save it in a fault memory, for example to save the To facilitate troubleshooting in the workshop.

The object is an advantageous embodiment of the invention of claim 2.

The position code according to the invention is composed of informa tion bits and parity bits together. The number of information mationsbits is the minimum number of bits to make an In formation code to form the positions to be encoded in error-free operation. The parity bits are checked by checking various information bits for or odd parity formed. The number of parity bits is the minimum number of redundant bits corresponding to the information code must be added in order to be faulty even with any position of the position code is a clear and correct expression enable identification of the inserted position.

The division of the position code according to the invention into In formation bits and parity bits enables simple and systematic structure of a fault-detecting and faulty correcting codes.

Another advantageous embodiment of the invention is the Ge Subject matter of claim 3.

In known electrical devices, the voltage Fixed contacts to be created to generate the logical ones the position code words in parallel rows  arranged. The fixed contacts in a row are in the known electrical switching devices each to one of the the lines transmitting the position code. Consequently the number of fixed contact rows corresponds to the number of Lines transmitting position code.

Since in the inventive error-correctable Po sition code the number of lei transmitting the position code is increased by the number of parity bits, is another Object of the invention, the electrical switching device such to design that the number of fixed contact rows less than the number of lines or bit positions of the invention Position codes is.

According to the invention, this second object of the invention is achieved by the characterizing features of claim 3 solved. According to the invention, the number of fixed contacts is limited rank on the number of high bits or the logical ones of the Position code word that has the most logical ones. If, for example, a position code according to the invention is used six bit positions over six lines to the gearbox control unit transfer and contain the individual words of the position code A maximum of three high bits or logical ones are not as usual Licher way six, but according to the invention only three hard rows of contacts required. The fixed contacts can be a number be assigned to different lines. The fixed contacts are so arranged that the lines run simultaneously through the Sliding contact of the position selector lever is connected to voltage be the bit positions of the resp position code word.

With this embodiment according to the invention is a space saver rende and inexpensive realization of the electrical switch Direction possible in the housing of the position selector lever.

In the figures, an electrical switching device according to the State of the art and an embodiment of the invention electrical switching device shown. Show it:

Fig. 1 shows an electrical switching device according to the prior art and

Fig. 2 shows an embodiment of the electrical switching device according to the invention.

In Fig. 1, a position selector lever 1 is shown, which is horizontally displaceable and are connected to the five different positions, P, R, N, D ₁ and D _2, adjustable. Each of these five positions P, R, N, D ₁ and D ₂ is assigned an individual arrangement of fixed contacts K. The fixed contacts K are arranged in three parallel rows. The first row is connected to a line L1, the second row to a line L2 and the third row to a line L3. Lines L1, L2 and L3 lead to a transmission control unit 2 . The transmission control unit 2 contains an evaluation unit 3 . The evaluation unit 3 assigns a position code word, which is transmitted via the lines L1, L2 and L3, to one of the five positions in accordance with a predetermined table. A position code word from the table is formed in that the bit positions or lines provided with a logical one are applied to the voltage via the fixed contacts K. A fixed contact K is connected to voltage when the position selector lever 1 touches it with its sliding contact S connected to the voltage U⁺.

If the position selector lever 1 is in position N, for example, the fixed contact K _{N is} applied to the voltage U⁺ via the sliding contact S. The fixed contact K _N is connected to line L1. The analog voltage U⁺ is passed on to the transmission control unit 2 via the line L1. Fixed contacts that are connected to lines L2 and L3 remain without voltage. The gearbox control unit 2 forms the analog voltage on the line L1 U⁺ a logic voltage level 1. For the power non-supplied power lines L2 and L3 sets the transmission control unit 2 refers to a logical zero voltage level determined. A position code word 1 0 0 thus results from the signals transmitted via the lines L1, L2 and L3. According to the table of the evaluation unit 3 , the transmission control unit concludes from the position code word 1 0 0 that the position N on the position selector lever 1 is present . In fault-free operation, the arrangement set by means of the position selector lever 1 is therefore correctly transmitted to the transmission control unit 2 via the position code.

The arrangement according to FIG. 1 is considered below in the presence of a single error. If the position selector lever 1 is again in position N, for example, and line L1 is interrupted at point U, the voltage U⁺ applied to fixed contact K _{N is} not transmitted via line L1 to transmission control unit 2 . The lines L2 and L3 are also not supplied with voltage. The transmission control unit 2 thus forms the code word 000 from the signals present on the lines L1, L2 and L3. According to the table of the evaluation unit 3 , the presence of the position R is inferred from the code word 000. A simple error is therefore sufficient to perform malfunctions in the transmission control unit 2 due to the incorrect position detection.

Such malfunctions are excluded by the arrangement according to the invention and the position code according to the invention according to FIG. 2.

The identical with the electrical switching device of FIG. 1 parts of the electrical switching device of FIG. 2 are designated by like reference numerals.

Fig. 2 also contains three mutually parallel rows of fixed contact. Here, however, the fixed contacts of a row are not exactly assigned to one line. Rather, the fixed contacts are connected to different lines. The number of lines is extended by lines L4, L5 and L6. The coding of the five positions via lines L1, L2 and L3 are taken from FIG. 1. The bits formed over the lines L1, L2 and L3 are the information bits of the position code according to the invention. The information code formed from these information bits corresponds to the position code from FIG. 1. This information code only makes it possible to distinguish between the five positions when operating correctly. The bit positions assigned to lines L4, L5 and L6 are parity bits which result from the check for odd parity of different bit positions of the information code. For bit position L4, bit positions L1 and L2, for bit position L5, bit positions L2 and L3 and for bit position L6, bit positions L1 and L3 are checked for odd parity. This means that for an odd number of logical ones, the parity bits receive the logical value zero, and for an even number of ones the logical value one. For example, the position code word for position P according to the invention results as follows: The bits of bit positions L1 and L2 have a logical one and a logical zero. The number of logical ones is odd, therefore the bit at bit position L4 is a logical zero. The bit of bit position L5 results from the comparison of the bits at bit position L2 and L3. These bit positions also have a logical zero and a logical one. Since the number of logical ones is also odd here, the bit of bit position L5 is logical zero. For the bit of bit position L6, the bits of bit positions L1 and L3 are compared. Since a logical one occurs twice, the number of logical ones is even, which means that the bit of bit position L6 is a logical one. This results in position code word 1 0 1 0 0 1 for position P. The bits for bit positions L4, L5 and L6 are generated in the same way for positions R, N, D ₁ and D ₂ . For example, if the position selector lever 1 is in position N, a first fixed contact that is connected to line L1 and a second fixed contact that is connected to line L5 is applied to voltage via sliding contact S. The lines L2, L3, L4 and L6 are not live. In error-free operation, a code 1 0 0 0 1 0 is formed, which the transmission control unit 2 identifies as position N in accordance with the table of the evaluation unit 3 .

If, for example, line L1 is interrupted at point U when a single error occurs, lines L1 to L6 transmit code word 00 00 1 0. This code word is not included in the table. The transmission control unit 2 then determines which of the position code words differs from the code word it knows at only one bit position. Since the code word 000 0 1 0 is the most similar to the position code word 1 000 1 0, the transmission control unit 2 determines the presence of the position N. Thus, the correct position is recognized despite the presence of a simple error. The position code shown in Fig. 2 ensures the correct detection of each simple error, regardless of the type of error (e.g. interruption or short circuit to +) and the error location (L1, L2, L3, L4, L5 or L6) position set by position selector lever 1 (P, R, N, D ₁ , D ₂ ).

In Fig. 2 three mutually parallel fixed contact rows are Darge, which are not assigned to a line as in Fig. 1. Rather, the number of fixed contact rows corresponds to the number of logical ones of the position code words for the positions P and R, which contain the most logical ones of all position code words in the table. This means that a maximum of three under different fixed contacts or three out of six lines of voltage must be created in any pos position of the position selector lever 1 . For this purpose, these fixed contacts are arranged according to the invention in a space-saving matrix.

Irrespective of the design of the electrical switching device from FIG. 2, further designs of the invention are also possible. The configuration according to the invention depends primarily on the number of positions to be coded.

The invention helps to increase safety and comfort in automatic transmissions.

Claims (3)

1.Electric switching device for automatic transmissions in motor vehicles to detect the position set on the automatic transmission position selector lever (P, R, N, D ...) in the form of a binary position code, which is transmitted from the position selector lever to an electronic transmission control unit characterized in that the position code is fehlerkorri gierbar for single errors. 2. Electrical switching device according to claim 1, characterized characterized in that the position code from information bits and Parity bits exist. 3. Electrical switching device according to claim 1 or 2, at which the position code is generated by fixed contacts, the along the position selector lever guide in parallel, in Sliding direction of the position selector lever extending rows are arranged and depending on the position of the bottom sition selector lever optionally by at least one with the Position selector lever firmly connected sliding contact to voltage be created, characterized in that the number of rows of fixed contacts arranged parallel to each other Number of high bits of the position code word with the most Corresponds to high bits.