DE2046498C3 - Circuit arrangement for coding a keyboard - Google Patents

Description

In an advantageous embodiment of the Er- can be wired so that a complete input finding are each switching contact of the keyboard z. B. lock and a deletion of the two control elements in parallel at the output of the counter, whereby lying character is possible.
double use of the code on the keyboard is possible. 2 shows a circuit device which becomes light. 5 switching on and off each one of the two to a downstream particularly, the invention with reference to the switching contact TS control members S is explained in drawings. serves. In each case two control switch contacts S and L of the keyboard it shows are a first flip-flop KL and a F i g. 1 the basic circuit for coding the second flip-flop KS connected so that a keyboard, io switching contact L directly to the input EKL and Fig. 2 a switching device for switching on and off via a NAND element NL with the input EiLL certain in F i g. 1 illustrated control of the first flip-flop KL, the switching contact 5 in links, connection with the output AKL of the first flip-flop F i g. 3 is a timing diagram of the FIG. 1 shown KL via an AND element US with the EKS input switching circuit arrangement. 15 of the second flip-flop KS is connected. The Ausin F i g. 1 is the basic circuit arrangement gang A KL of the first flip-flop KL is shown with the Einur coding of a keyboard. The switching gear ΈΚΊ5 of the second flip-flop KS and with a contact TS of the keyboard are each two control element input of an OR element OS coupled, the S connected in parallel, each control element the output AKS of the second flip-flop KS with that of a first Flip-flop K and this downstream second input of the OR element OS connected to a second flip-flop NK and an AND. The output signal GR of the OR element OS element U exists. The two inputs of the AND are each directly to the first control element S and via element U are negated with the output AK a NAND element NS negates the second control of the first flip-flop K and the output ANK of the element S ¹ ^. The control of the two tilting stages NK connected. The Ausgangssi- 25 fen KL and KS via the output T gnale of the AND gates U, that of the first AND gate G. If are also the training, the two switching transition signals of the control members S, recycle via contacts S and L is not closed, so via the one common OR element O a flip-flop KA signal GR - 0 is only the second of the two in front. The output AKA of the flip-flop KA controls a key assigned control elements S blocked. Is connected via an AND gate V closed the through-connection of a 3 °, the switching contact S or L, it is counting clock TA 2 to a binary counter Z. The binary signal GR = 1 in each case only the first control member S is counter Z a decoder D downstream of the blocked. Decoded from N in a similar way to switching a position of binary counter 1 from upper to lower. The office typewriter takes place via the closing outputs AD of the decoderD individually control the switching contactS a storage of the Si via an AND gate G each through the circuit 35 gnals GR - 1, this storage is through the one clock TAl, which compared to the clock TA 2 Closing of the switching contact L is canceled again,
z. B. is phase shifted by τ, to the clock input The function of the in F i g. 1 shown switching gears of the tipping stage K. The tipping stages K are processing arrangement is based on the in F i g. 3 is explained by the output signals T of the AND-equilibrated pulse diagram. As long as the ZähderG is selected cyclically. After closing a 40 IerZ is not stopped, a switching contact TS of the keyboard runs at the outputs AD , and the decoder D constantly changes to a logical 1. This most corresponding clock T, the flip-flop K is set. Output signals AD of the decoderD form each-Since in the basic position all flip-flops are set back via an AND link with the clock, the flip-flop KA becomes the clocks T immediately after TA 1, which is the setting of the flip-flop K after the keyboard cyclically select the AND element U 45. If, for example, and the OR element O is preceded by a logical 1, as shown in the pulse diagram, the first switching occurs. With the next clock TAO, which is closed, for example, by contact TSl on the keyboard, and if any negation of clock TA 2 can arise, the first of the two is set to a switching contact after the flip-flop KA and the flip-flop NK . switched control elements S are blocked, after setting the flip-flop KA irt the counter 50 is stopped at the next clock T, in this case T 2, and the corresponding flip-flop K is set at its output. In the event that coded line bounces assigned to a closed switching contact, the setting of the toggle stage K is forgotten. Setting the NK flip-flop leads to a hindrance, so this flip-flop is definitely activated with the preparation of the KA flip-flop. Clock T is set for the next cycle. The set the coded character at the output of the counter removed from the flip-flop K leads to the preparation of the call, so the flip-flop KA is reset by a free time flip-flop KA, which is reset to zero with the next clock TA 0 and thus the FB is set thus becoming the signal FA-O. Counter started again. Regardless of the position. By setting the toggle stage KA , the counting of the key that led to the stop of the counter can be stopped by Z, to be precise because of the phase expander. Each switching contact ⁶ ° shift between the clocks TA 1 and TA 2 in TS are two control elements connected downstream to one of the previously assumed position. After calling up the double code utilization of the keyboard to enable encoded characters lying at the output of the counter, in each case a control element by means of a chens is activated by a free character FB = Q the special device via a lock input GK stage KA with the next clock TA 0 reset, blocked and the other free for a character input, whereby the signal FA is again = 1 and is thus given. The flip-flop KA and the binary counter Z, the counter Z is started again.

For this purpose 2 sheets of drawings

Claims (4)

\ J The coding of a keyboard takes place in the general patent claims: nen via diodes, whereby disruptive pulse sequences caused by contact bouncing of the switching contacts of the 1. Circuit arrangement for coding a siature arise, blocked by ÄC members who keypad with a rotating counter, da- 5 den. By simultaneously closing several switches, characterized in that the off contacts can be followed by a falsification of characters output signals of a binary counter (Z), and because of the KC elements used, switched decoder (D) can be carried out in conjunction with ksine circuit integration,
a phase compared to a counting clock (TA 2) To enter digits in counters using a clock (TA 1) one after the other the io generation of a keyboard, it is already known (DL-PS individual switching contacts on the keyboard after 19 837), a counter each time a switched control element (S) is actuated, steers are brought from zero to a level, and that a control element only corresponds immediately, later to the digit of the actuated key. The next disadvantage here after one cycle of the counter is that the key is pressed and closed of the switch connected to it until the counter emits a signal via an OR- Level has reached, so that the arrangement relatively link (O) and via a flip-flop (KA) works slowly. In addition, no Maßbindung are noted with a negated count clock provided (TA 2) to the stop with simultaneous actuation counter (Z), wherein the signal of two at the output or more keys a misentry Verdes control member (S) with the stoppage of the Zäh- 20 prevent. lers is switched off again and the counter (Z) It has already been proposed by the after retrieving the co- use of a binary counter and a decoder at its output are used to cyclically select switching contacts on a keyboard based on a dial tone, (FS) continues. so that after closing a? Switching contact 2. Circuit arrangement according to claim 1, that a flip-flop is set downstream of this, characterized in that each control element (S) via which the counter is stopped. As a result, the first multivibrator (K) and this downstream counter contains a second multivibrator (NK) that applies to the closed switching contact and the assigned level. After opening the switching constituent of the flip-flop (K) via the cycle assigned to it, the counter is started again.
30 With such an arrangement, a decoder output (D) is controlled, correct counter reading, a certain switching conwird that the output (AK) is assigned to the first flip-flop clock, this assignment to the coding (K) and the output (ΆΝΚ) can be used to tilt the keyboard a second time. A problem arises stage (NK) each with an input of an AND, however, with regard to the retrieval of the element (U) connected, the flip-flop 35 output of the counter encoded character (NK) by the negated counting clock (TA 2) because the counter only stands still as long as one is being controlled. Switching contact is closed. Another Problem 3. Circuit arrangement according to claim 1, da- occurs in that during the closing of a characterized in that each switching contact Schalikontaktes no further Inzwei via other buttons Control elements connected in parallel are 40 formation can be entered, even if that and that a switching device is provided, encoded characters located at the output of the counter each of which blocks a control element, which has already been called. a double code utilization of the keyboard. The object of the invention is to provide a becomes possible. To create circuitry that is safe 4. Circuit arrangement according to claim 1 45 coding of a keyboard ensured, in the insund3, characterized in that a special switching device for switching off one of the two switching contacts, even with simultaneous closing, no falsification of characters occurs, the control members have a first flip-flop (KL) and and which enables a secure takeover of the coded time via a second chens connected downstream. In this case, immediately after the flip-flop (KS) contains and that a first control 50 takeover of a character, the circuit for a switch (5) via an AND element (VS) with the further input of characters should be released.
Input (EKS) of the second flip-flop (KS) and this object is achieved in accordance with the invention by a second control switch (Z,) with the input that the output signals of a binary counter (EKL) and a NAND element (NL) are connected downstream Decoder in connection with the input (EKl) of the first flip-flop (KL) 55 is phase-shifted compared to a counting clock and that the outputs (AKL) and a clock successively the the individual Schaltkoni / l KS) of the two flip-flops via an OR clock Keyboard downstream control members member (OS) are fed directly and negated with one each and that a control member is only connected to the two control members and that telbar, at the latest after one cycle of the counter, the clock inputs of the two flip-flops with the 60 after closing the switching cone connected to it The output of the decoder (D) in connection emits a signal which is coupled to the clock (TA 1) via an OR gate. and via a flip-flop in connection with a negated counting cycle the counter stops, whereby the Si gnal at the output of the control member with the sticking ⁶ 5 of the counter is switched off again and the counter The invention relates to a circuit connection after the coding order located at its output has been called up to code a keyboard with an um- “Calling counter. runs.