DE2506168A1 - Pulse operated digital evaluation network - is for frequency modulated monitoring applications such as flame monitoring diode based devices - Google Patents

Abstract

The digital evaluation network has three parts, the first (A) of which consists of a frequency checking counter arrangement which uses the incoming pulses to increment a counter (B) over a fixed time interval (T1). If at the end of this time interval a threshold number (N) has been achieved then a lamp is illuminated by means of a signal (F) of a fixed time (T2) duration, and the cycle is restarted. If the threshold number is not achieved, then no input signal is produced and the cycle is in any case restarted. This output signal (F) is produced by the second section. The third section concerns a check on the operational state which relies on closing the flame observation aperture and noting that no impulse count is recorded in the frequency checking section.

Description

Counting device for monitoring conditions or events that are generated by means of a receiver connected upstream of the counting device can be recognized, which is a digitally usable Output signal emits The invention relates to a counter that the frequency of impulses or impulse-like emitted by an upstream receiver Determines signals counting and derives a decision from the count value.

The preform of such a Zälilgerätes is VO.ii Inventor @ instead a control device used in commercially available flame monitoring devices iit good success ;; been tested.

The receiver upstream of these flame monitoring devices is in principle a diode that changes depending on the intensity of the ultraviolet acting on it The light of the flames ignites with different frequencies. The light receivers of two different Brands could be connected upstream of the counting device with little or no changes so that it counted the pulses from the diode firing.

In the control units that actually belong to the light receivers the pulses are instead counted by integrating them into an analog signal transformed, from the course of which a decision is derived in these control units will. In this conversion into an analog signal, those used today lose Control devices such as

Control unit 25 SU 3 with light receiver 45 UV 5 from Electron. Corp. of America 6) Frankfurt / Main or control unit D-UV 300 with light receiver D-LE 300 from Durag Industrie-Elektron. 2) Hamburg61 a considerable part of the in the various Frequency of ignition of the diodes with a lower resolution. So have to the pulse rates that are measured once the flame to be monitored and the interfering one External flames act on the receiver, but other times only the external flames. differ by a considerable amount before these control units the Decrease in the brightness value registered by the receiver due to the formation of a corresponding signal (namely the message: flame failed).

The invention is based on the object given by the recipient Process information without losing any information. This task becomes solved in that the information given by the recipient, namely the frequency the impulses are evaluated without any essential change in the information it is achieved that sinal sources (flames) their associated pulse rates decrease by at least Distinguish 1 impulse, i. recognized by the receiver as different signal sources have been recognized by the counting device as different signal sources and so making the right decision. becomes possible.

Of course, the use of this counting device does not remain limited to use together with light receivers of the named kind, special @ es can be used wherever a status or event is received from a receiver is observed, the quality of which is reflected in the pulse rate emitted by the receiver or pulse-shaped output signal clearly expresses it.

The basic structure of such a counting device is shown below reproduced: Figure 1 shows a logic circuit diagram of such a counter.

It is for use as a control unit for a flame monitoring device expanded and, in addition to the monitoring function, also contains a test function.

The pulses emitted by the receiver are converted into one for the counter appropriate shape transformed (adaptation) and counted over a time T1 within which they must have reached a predetermined value. If this value is reached, then unu At the same time, an acknowledgment signal is stored, a signal F is formed, which via one-time T2 is retained. With the ranges of N, the count of the pulse counter becomes deleted and the input of the counter again until the value N is reached, at most but enabled for time T1. If j4 is not reached this time, it disappears F after the time T2 after the beginning of the last counting cycle. F can only be formed again be after the acknowledgment signal reappeared. E means the message that the to supervising flame is burning.

To check the meter as well as the receiver can be selected after a Number of counting cycles of the receivers for a time T3 from the flames by means of a Screen and the pulse counter are cleared at the same time Pulse counter and receiver are still in order, then the pulse counter reading is allowed during the Puüfzeit T3 does not deviate from zero. If it nevertheless deviates, this means the defect the monitoring device and is signaled accordingly.

Claims (1)

Claim Counting device for monitoring conditions or events that are generated by means of a receiver connected upstream of the counting device can be recognized, which is a digitally usable Emits output signal. The counter is characterized by the fact that it is the frequency which counts the signals emitted by the receiver, without the signals being essential Must be changed.