DE3144321A1 - Radioclock/quartz clock combination - Google Patents

Abstract

Radioclocks having microprocessors consume so much power that the batteries need to be very large for continuous operation. It is therefore proposed in order to reduce the power loss to split the overall circuitry into two preferably integrated circuit parts in such a way that a low-power part comprises both a quartz clock and some control circuits, and that the second part comprises the circuits which consume power intensely, such as the microprocessor and the analogue receiver circuit, that this part is switched on only for a short time in each case, receives the standard time, correctly sets the quartz clock, computes the next switch-on time, transfers data into the memory of the control circuit, and is then switched off from there.

Description

"Radio clock-quartz clock combination"

Patent application: 1Punkuhr-Quartzuhr-Umiatio: "Description in the patent application OS 27 15 096 has been described that there are advantages if you have a radio clock and a quartz watch combined. In particular, it has been suggested that it for reasons of energy saving and interference immunity is favorable, the receiving part of the arrangement only to be switched on briefly at larger time intervals until the quartz clock is set correctly again. Most of them should digital operations related to reception and frequency division, in a single, universal, highly integrated circuit, such as a common one Microprocessor. It has now been shown that all are so far on the market available universal microprocessors with which one can handle the relatively complicated Operations of filtering, character recognition and checking can perform, also at Use of low-performance technologies, such as CMOS technology, is still too much Consume power, so the goal of a battery-powered long-term watch is not can be reached. It is therefore in a further development of the aforementioned older Application proposed to share the overall digital circuit in such a way that the always active circuit parts are combined in one, preferably integrated, component are, and that the mostly dormant circuit parts are combined in a second module are. Then the energy supply of the mostly dormant can without great effort Circuit part can be switched off or greatly reduced in the rest periods. Of the Permanently active digital circuit part will be the 'autonomous quartz watch' as shown in Figure 1 while the mostly dormant part of the circuit is called the "radio clock X7" target. (In contrast to the aforementioned older application, not only the analog receiver part but also the digital part of a radio clock in the Autonomous phases of the clock operation are switched off.) According to the invention.

switch the radio clock on and off as follows: In one Control circuit of the interface divider to expand the autonomous quartz clock is, a time information is stored, which indicates what time of day and the date on which the radio clock should be switched on briefly. The first win shift must be done first after inserting the battery. The corresponding The switch-on command results from the zero setting of the corresponding memory the control circuit. Then the activated digital radio clock circuit calculates the next switch-on time and overwrites with this information the Control circuit memory. As soon as this has happened, the radio clock is switched off. This state remains until the output register of the quartz clock, whose data are constantly fed to the control circuit reaches the same value Has. The identity of the stored value and the value in the quartz clock register is determined by a comparison is established and gates 1 to 2 are activated the radio clock with the supply voltage, the quartz frequencies and the clock pulses opened. The activated radio clock will receive signals again and with the help of a high-performance microcomputer until a complete, checked Time telegram is together. This is then sent to the quartz clock register via gate 3 passed on and overwritten the previous value.

Shortly before, however, the earlier value was still due to the opened Gate 4 has been transferred to the digital radio clock circuit, and from the difference between it and the correct current time value there was information about the most appropriate next switch-on time calculated. This information is then immediately delivered to the control circuit. Then the control circuit is all Lock gates again. As with setting the correct time for the first time after changing the battery, the foot watch has returned to the inactive idle state, in which it neither consumes electrical energy nor occasionally occurs strong interfering signals can produce false information. As in the older one Registration set out, the switch-on time can always be chosen so that the Reception conditions are likely to be optimal (at great distances from the transmitter e.g. during the night, etc.).

The great advantage of such an arrangement according to the invention is not only to be seen in the fact that despite the high power consumption of today's radio clocks Long-term battery operation with a guaranteed minimum time deviation of the displayed Value is possible, but also in the fact that you can join the already developed and proven Radio clock circuits and autonomous quartz clock circuits only have one interface circuit must also develop. This interface circuit is so small that that they can be easily integrated into a single integrated circuit can be summarized or that they may also be on the chip of the autonomous Quartz watch finds place.

Claims (1)

Claims: Claim arrangement consisting of a quartz clock and a radio clock, in which the radio clock is only switched on for a short time, so that they give priority to the content of the time register of the quartz watch that controls the display can set or correct, characterized in that the radio clock-quartz clock combination so divided into two, preferably integrated circuit parts that one part the always active circuits and the other part the ones that are mostly in the rest position Circuits that this last part included both the analog receiving circuit contains as well as the specific digital circuits for radio clock signal processing and that the always active part switches on the radio clock circuits so often for a short time, that a given deviation of the displayed time from the exact time is not is exceeded. Claim 2: arrangement according to claim i, characterized in that all circuits belonging to the radio clock during their functional rest periods of the supply with DC voltage, crystal frequencies and clock pulses are disconnected and that these separations from the always active, autonomous quartz clock and the associated Interface circuit can be controlled. Claim 3: Arrangement according to Claims 1 and 2, characterized in that that the data processing part of the radio clock is in its active phase due to the Difference between correct time and quartz clock time is the best reset time determined that this time information in the always active circuit part of the autonomous Quartz clock is transmitted, and that the radio clock is then switched off by the autonomous quartz clock will.