DE2063582A1 - Fast query of data contact fields - Google Patents

Description

Rapid Interrogation of Data Contact Fields The invention relates to a method and to an arrangement for carrying out a method for rapid Query of 1) data contact fields via multiple cables In data systems there is often the task of a group of data input devices with contact fields via a central controller to connect to a computer. For economic reasons, it is important to to query each input device quickly, in order to be able to do so to be able to query many input devices one after the other via one channel.

It is known, as shown in Fig. 1, the character-by-character retrieval the data from contact fields of several separate input devices BG1-BGm over longer lines L with the help of a central call counter AFZ with downstream Perform amplifier. The counting steps of this counter AFZ are to each the controller connected to the input device 33G1-BGm, with the selection of the to be queried block input devices BG1-BGm via a selection switch AWS and the Receive switches ES1-ESm assigned to each input device 3G1-3Gm are hit. The input devices BG1-3Gm deliver the data via a contact field with potential-free Contacts. When querying the status of these contacts, the line capacities be reloaded. The time constant of these transient processes determine the achievable Query speed. This query of the individual contacts works better known Place it in front of you in such a way that the lines are charged via a resistor at the same time by activating the control switches belonging to the characters to be queried the characters are read from the contact field. This method of querying the contact fields take too long in many cases. This time will mainly determined by the size of the resistance over which the lines 5 can be charged. However, this resistance cannot be of any low resistance as this would lead to too great a power requirement of the arrangement.

The invention is therefore based on the object that takes place during the interrogation process Reloading processes in the connecting lines to carry out as quickly as possible to the Increase the query speed, but the performance requirements of the arrangement are low is to be kept.

According to the invention, this object is achieved by a method which is characterized by the following process steps a) in a first phase the discharge lines of the contacts to be queried have a low resistance to a voltage value brought, which is above the response threshold of the reception switch.

b) in a second phase, the information in the contact field in a known manner by pressing the belonging to the contacts to be queried Control switch while at the same time continuing to run; tender high-resistance feed of the Interrogation lines interrogated.

The arrangement for carrying out the procedure is characterized by that an emitter follower is provided over the query lines briefly charged with low resistance.

The advantages achieved with the invention are in particular: that the query speed is increased with little effort. Because the charge and discharging the capacities of the interrogation lines separated in time from one another run, the charging can also be carried out with low resistance for a limited time, without doing so against the requirement for earth and short-circuit strength as well as lower Violate power consumption. The settling times are great in both directions low and their sum is much smaller than the settling time with the known single-phase operation via fixed impedances. The extra effort for setting up Implementation of the process is low, because only one charging device for all lines is needed and because the clocks to control the charging and query phase can be easily derived in clock-controlled systems. Other benefits are based on an exemplary embodiment shown. that is shown in the figures and in is described in more detail below.

1 shows a known arrangement for calling up the data from contact fields several remote data input devices Fig. 2 Schematic diagram for the retrieval from the input devices according to the inventive method Fig. 3 and 4 each show a timing diagram for the retrieval of data from input devices.

In Fig. 2 is the basic circuit diagram for the data retrieval from input devices shown according to the Varfahr-s according to the invention. Several input devices BG1-3Gm with their data contact fields K are on interrogation lines L with the reception switches ES in a control center. E. connected. The contact fields K of the input devices BG1-BGm consist in this embodiment of 10 contacts ER1-ET10 per character Z. Each contact KT is assigned a reception switch ES in the control center E, on which the bit stored per contact KT can be received. The selection of the Input device BS takes place via a selection switch SS from a selection device is controlled, and the one receiving switch group ES, for each input device BG activated. The selection of the individual characters Z1-Zn in the input devices 3'G1-3Gm success via control switch AS1-ASn, with each character Z of all input devices BG is assigned a control switch AS. The capacity to be reloaded when requested a character Z depends on the length of the interrogation lines L, the number of input devices BG and the bit combination of the previous characters.

With a given length of the interrogation lines L and a given number of the input device BG is the capacity to be reloaded in each case when a query is made on smallest, if the requested character is the same as the previous one and largest, if the requested character has the bit assignment of a logical at one point in the code 0, which corresponds to an open contact K, and the characters queried beforehand on this Digit have a bit assignment of a logical 1, i.e. a closed contact E. For the maximum query speed, the largest possible capacity is that of Query of a drawing must be reloaded, determining. As can be seen from Fig. 2, exist when charging or discharging the multi-core lines X different Temporal relationships. An open contact K is charged with a high resistance a resistor R1, the discharge takes place with low resistance via the transistor of the control circuit AS. The resistor R1 can for reasons of the power requirement and because of the demanded Short-circuit or earth fault proof cannot be made arbitrarily small. The same applies to a charging resistor to be provided in the control circuit AS evenbells. According to the invention, the query speed is increased in such a way that the Carries out character retrieval in two phases. In the first phase the lines L briefly charged to a voltage value via an emitter follower EM, which is above the response threshold of the reception switch ES. Then will in the second phase the character in the contact field E in a known manner Switching through the query switch AS queried with low resistance. The sum of the two successive settling processes is shorter than the maximum settling time with single-phase operation. The control circuit AS is decoupled via each one diode D1-Dn per control line AL. The cycles for controlling the charging or query phase are derived from the system clock.

Referring to Figures 3 and 4, there is a timing diagram of the data retrieval shown from the block input devices BG.

FIG. 3 shows the basic course of the lb questioning steps over time when querying data contact fields in the known method in which the Charging and query takes place in each case in a step 51 to S3. Figure 4 shows the query steps in which the loading steps AFS and the query steps FS be done separately. As can be seen from FIGS. 3 and 4, with the corresponding Sizing the sum of the two sequential transient processes AUFS, FS must be less than the maximum settling time for single-phase operation.

4 claims 4 figures

Claims (4)

P a t e n t a n p r ü c h e r drive for quick query of data contact fields Via multiple cables, not marked by the following process steps: a) in a first phase (AFS), the query lines (L) of the query lines Low-resistance contacts (KT) brought to a voltage value that is above the response threshold the reception desk (ES) is located. b) in a second phase (FS) the one in the contact field (g) becomes Information in a known way by pressing the to the queried contacts (KT) associated control switch (AS) with simultaneous continuing high-resistance Infeed of the interrogation lines (L) interrogated. 2. Arrangement for performing the method according to claim 1, d a d u r c h g e k e n n n z e i c b n e t that an emitter follower (EM) is provided, via which the interrogation lines (L) are briefly charged with low resistance. 3. Arrangement according to claim 2, d a d u r c h g e k e n nz e i c h n e t that a decoupling diode (D) is provided for each control line (AL). 4. Arrangement according to claims 2 and 3, d a d u r c h g ek e n n notices that means are provided for deriving the clocks for the charging phase (AFS) and the query phase (FS) from the system clock. Blank page