DE3607478C1 - Circuit arrangement for indicating circuit states of a multiplicity of electrical components - Google Patents

Abstract

In a circuit arrangement for indicating circuit states of a multiplicity of electrical components (6) with shift registers (1), the individual outputs (3) of which are in each case allocated to one of the electrical components (6) and to which one terminal of an indicating light-emitting diode (9, 10) is connected, the other terminal of which can be applied to a supply voltage terminal (+5V) via a switch (15 and 16) common to the light-emitting diodes (9 and 10, respectively), which causes the light-emitting diodes (9 and 10) to be lit when a suitable signal is present at the relevant output (3) of the shift register (1), more than one light-emitting diode (9, 10) being allocated to each electrical component (6), the number of light-emitting diodes (9, 10) can be selectively switched on without additional shift register chips (2) if the number of light-emitting diodes (9, 10) allocated to an electrical component (6) is connected to the same output (3) of the shift register (1) and can be connected to various supply voltage terminals (12, 14), if the light-emitting diodes (9, 10) connected to the outputs (3) of the shift register (1) form a number of groups, corresponding to the number of light-emitting diodes (9, 10) present at each output (3), which in each case can be connected via a common switch (15 and 16) together with the associated supply voltage terminal (+5V), and if the light-emitting diodes (9, 10) at high frequency alternatingly to the [lacuna]... Original abstract incomplete. <IMAGE>

Description

The invention relates to a circuit arrangement for display of circuit states of a variety of electrical Components with shift registers, their individual outputs are connected to the electrical components and the connected a connection of an indicating LED sen, whose other connection is via a light diode common switch on a supply voltage is connected, causing the light emitting diode is caused when at the relevant output of the A suitable signal is present in the shift register, where more than one light-emitting diode on each electrical component connected.

It is known the circuit state of a variety of - generally identical - electrical components through rows of LEDs to indicate the user of an electrical device information for further Operation of the device. An example of this  is the display of the switching states of the buttons electronic organ. The corresponding ads will be controlled by a microprocessor that slides into the register enters a suitable bit pattern so that the Outputs of the shift register, the LEDs of which light up suitable signal is pending. In a be known embodiment, this suitable signal is a Ground signal. The light emitting diodes are connected to the supply voltage connection a positive supply voltage leads to the other possible signal state at the output of the shift register. The at the exit of the The LED connected to the shift register lights up there when the output is at ground potential, and light does not work if a positive signal ("H") lies. It is known to have the shift registers next to the An control of the LEDs also for querying the current one State of the assigned buttons. This will the supply voltage for a short time using a switch separated from the light emitting diodes and a query pulse by pushed the shift register. The button is with one Contact with the associated output of the shift register, connected to the other contact with a signal line. If the button is closed, the signal line appears an O- at the time this switch was queried Signal, if the switch in question is open, arises a "1" signal. Such a polling cycle has one Length in the microsecond range, so that's over that length while the LEDs are switched off for humans Eye is imperceptible.

It has been shown that in many applications a LED per component is not sufficient. At elec tronic organs, this applies in particular due to Pre-programming options. It is therefore known  assign two or more light-emitting diodes to each component, various functions related to this component to show. In one of the instructions 66200 the Dr. Rainer Böhm GmbH KG (cf. button 16-fold) known embodiment is the number the outputs of the shift register corresponding to the double doubled the number of light emitting diodes for each component been. The LEDs are together on a ver supply voltage, and for each LED there is an output a shift register is provided. According to the first The function of the button to be displayed is a group of Shift registers with the corresponding output signals occupied while the second group (bottom) of slides according to the second function to be displayed is assigned with output signals. For the intermediate Only the upper shift register is queried ster used.

The disadvantage of this known circuit is the doubling te expenditure on shift registers, in particular one considerable board space and of course an additional Requires cost.

The invention is therefore based on the object To create circuit arrangement of the type mentioned len, for the display of several circuit states for an electronic component with the help of several lights diodes an additional effort on shift registers is avoided.

This object is achieved in that several lights connected to an electrical component diodes connected to the same output of the shift register are and at different supply voltage connections lying,  that the connected to the outputs of the shift register NEN LEDs, the number of LEDs at each output form corresponding groups on the light-emitting diodes, each together with the associated supply voltage connection via a common switch they are and that the light emitting diodes alternate at high frequency are connected to the supply voltage connections, so that the signals belonging to the switched-on group are at the outputs of the shift register.

The control of the light-emitting diodes is therefore according to the invention alternately made with the help of the same register where when each LED is switched on as a function of the switched supply voltage and from the am Bit pattern generated output of the shift register takes place. In this way it is possible to use the multiple light emitting diodes to the same output of the shift register and to get selective displays for the LEDs. The LEDs do not light up continuously but only for a certain period of time and are then removed switches to control the other group of LEDs to make cash. Since the switchover, for example, all 5 ms (200 Hz), the human eye takes this The individual LEDs are not switched on and off true, but sees due to the integration effect of the human eye a continuously burning LED de, although by the duty cycle for the on switch the light emitting diode somewhat reduced can be.

Of course, also with the scarf according to the invention a query cycle can be interposed,  which is also not disturbing here because it is within a by an order of magnitude shorter than the light duration the light emitting diodes can be carried out.  

The invention is based on one in the Drawing he illustrated embodiment closer to be refined.

The drawing shows a shift register 1 from three shift register modules 2 , each having eight outputs 3 and are connected in series in the usual way, so that a shift register 1 with 24 outputs results. The shift register modules 2 are each connected to a clock input 4 with a clock connection "clock". A data line 5 is connected to a data input Ain or Bin of the first shift register module 2 . The data signal passed into the shift register module 2 via the data line 5 leads to a corresponding bit pattern at the outputs 3 . The final output H of the first shift register block 2 is connected to the data input of the succeeding shift register block 2, resulting in the conventional series connection of the Schieberegisterbau stones 2 results to the shift register. 1

At the outputs 3 of the shift register modules 2 , an electrical component (switch) 6 is connected with a contact, the other contact of which is connected via a separating diode 7 to a signal line 8 .

With the outputs 3 , a first light-emitting diode 9 and a second light-emitting diode 10 are also connected in each case. The first light-emitting diode 9 is connected to a first supply line 12 via a resistor 11 and the second light-emitting diode 10 is connected to a second supply line 14 via a resistor 13 . The supply lines 12, 14 are each connected via a transistor switch 15, 16 to a positive supply voltage + 5V. To the base of the first switching transistor 15 passes a control signal QL 1, to the base of the second Schalttran sistors 16 a control signal QL. 2

The circuit arrangement described can follow in time perform the following functions:

At a first point in time, no control signals QL 1 and QL 2 are conducted to the switching transistors 15, 16 . The supply voltage connections 12, 14 thus carry no supply voltage, so that the LEDs 9, 10 remain switched off. During this time, a query pulse ("low") is shifted through the shift register 1 via the data connection 5 , whereby a bit pattern of 24 pulses is formed on the signal line 8 , which characterizes the switching state of the switches 6 . This bit pattern is passed to a microprocessor, which processes the information about the position of the switches 6 . Such a polling cycle takes a few microseconds. After completion of the sampling cycle is sent via the Datenan circuit 5, a serial data signal of 24 pulses in the shift register 1, so that the 24 outputs of the shift beregisters 1 with the corresponding potentials entspre the serial data signal are assigned accordingly. Then, for example, a control signal QL 1 is placed on the switch transistor 15 . As a result, the supply voltage connection 12 leads a supply voltage. The first light-emitting diodes 9 , which are connected to an output 3 of a shift register module 2 , which has a ground signal “low”, now light up since the current through the light-emitting diode 9 can flow from the positive supply voltage connection 12 to the ground potential at the associated output 3 . The assignment of the outputs 3 with the associated data happens within a few microseconds. The stable state is then maintained for a few milliseconds, for example 5 ms. Then the control signal QL 1 is switched off, the bit pattern for the second group is pushed through, and the control signal QL 2 is switched on, thereby starting the third functional section of the circuit.

In this functional section, the supply voltage termination 14 carries a positive supply voltage, which is therefore present at the anode of the diodes 10 . When the switch transistors 15, 16 are switched, the outputs of the shift register 1 are newly assigned via the data connection 5 , specifically in accordance with the desired display for the second light-emitting diodes 10 . Those LEDs 10 , which are now connected to an output with low potential, light up. This state is also maintained for about 5 ms. The system then switches back to the first light-emitting diodes 9 , a query cycle being able to be interposed again, if desired.

The light emitting diodes 9, 10 thus light up - insofar as they are driven accordingly by the data signal supplied via the data connection 5 - not continuously, but pulsating, the light pause having approximately the same duration as the light period. If the switchover frequency between the two light-emitting diodes 9, 10 is chosen to be correspondingly high, the human eye does not perceive these switching on and off processes, so that the light appears continuously to the eye.

The circuit arrangement according to the invention makes it possible to provide that only one output 3 of the shift register 1 has to be provided for each switch 6 , even if several, in the present case two LEDs 9, 10 are provided for the function display associated with this switch 6 . The corresponding circuit board of the electronic organ can also be saved 2 space because of the lack of additional shift register modules and, moreover, the wiring effort can be significantly reduced.

Claims (2)

1. Circuit arrangement for displaying circuit states of a plurality of electrical components ( 6 ) with shift registers ( 1 ), the individual outputs ( 3 ) of which are connected to the electrical components ( 6 ) and to which a connection of an indicating light-emitting diode ( 9, 10 ) is connected is, whose other connection is via a common to the light emitting diodes ( 9 or 10 ) switch ( 15 or 16 ) to a supply voltage connection (+ 5V), causing the light emitting diode ( 9 or 10 ) to light up when the relevant off gear ( 3 ) of the shift register ( 1 ) there is a suitable signal, more than one light-emitting diode ( 9, 10 ) being connected to each electrical component ( 6 ), characterized in that
that a plurality of light-emitting diodes ( 9, 10 ) connected to an electrical component ( 6 ) are connected to the same output ( 3 ) of the shift register ( 1 ) and are connected to different supply voltage connections ( 12, 14 ) such that the outputs ( 3 ) of the shift register ( 1 ) connected light-emitting diodes ( 9, 10 ) form a plurality of groups corresponding to the number of light-emitting diodes present at each output ( 3 ), each of which together with the associated supply voltage connection (+ 5V) via a common switch ( 15 or 16 ) are connected,
and that the light-emitting diodes ( 9, 10 ) are switched at high frequency alternately to the supply voltage connections (+ 5V), so that the signals belonging to the switched-on group are at the outputs ( 3 ) of the shift register ( 1 ). 2. Circuit arrangement according to claim 1 , characterized in that between the switches for the light-emitting diodes ( 9, 10 ) a query cycle for the electrical components ( 6 ) is inserted, during which none of the light-emitting diodes ( 9, 10 ) with a supply voltage connection ( + 5V) is connected.