SU692000A1 - Apparatus for supplying a load - Google Patents

Description

one

The invention of the company is in the field of electrical engineering, in particular, electrical power supply devices.

A device is known for automatically controlling and monitoring the charge of buffer, batteries when they are charged from solar batteries (SBs) installed on satellites of the earth. The charge is monitored by P (5; p, ip not charged current, KoTppblft-peryLYuyr G using a push-pull amplifier, a sawtooth pulse generator, symmetrical stand-by multivibrator H semiconductor switch 1.

Also known is a block diagram of the regulation of the power supply system of a solar battery with a solar battery and its associated battery. In order to maintain the voltage constant on the common tires with the battery and dissipate the excess energy generated by the SB, it is possible to shunt the SB elements using parallel-connected power transistors 2.

However, due to the limited functions of the control units, operation mode control and comparison, the known devices do not provide without changing their structure.

external control and flexible distribution of energy between dc sources, batteries and consumers, and also do not allow the use of a number of dc sources and batteries. Besides

. Togo. To carry out the use of these devices requires a variety of complex and expensive apparatus of the CU and the test is lengthy and time consuming.

The closest to the invention to the technical essence is a device containing a solar battery, two batteries, two tires, a control unit, with sensors and operating mode control units. And a comparison 3. In this device, the bus supplying the load is connected via switch to the regulated part of the solar battery, divided into sections, and one of the two batteries, and the bus, which serves for alternate charging and additional battery discharge, is connected via a switch to the other battery the battery and the remaining portion of the battery solnechrfy at .etom upravlelie osushestvl switch is at voltage sensor signals. connected to the tires, the order of arrival of which is recorded by the comparison unit. The adjustable part of the solar cell battery maintains an approximate energy balance in the mode when its power is equal to the average power consumed by the load. This is done by automatically connecting (or disconnecting) sections of the adjustable part of the solar battery to the load bus using a switch. - - an echo controlled by a signal of the W thru sensors adjusted to the specified lower and upper levels of the operating voltage -. Vani. The alternating charge and charge of the batteries is carried out by alternately connecting them. to the bus on the bus and charging bus by the switch according to the signals of the voltage sensors connected to% and tires and set accordingly to the permissible lower and upper levels of the trigger voltage. The division of the solar battery into two parts and dependent on the accumulator batteries and the switching of sections of the regulated part of the solar battery; while the batteries to the charge bus and the load bus allow for an automatic TODDFV load mode to increase the specific electrical characteristics of the batteries. However, in the indicated device, part of the energy generated by the solar battery is lost when the solar cell research institute is disconnected, from the charging tires and when the solar battery section is disconnected. From the load bus, when their total power exceeds the power consumed by the load, and the total installed power of one battery The solar and solar batteries exceed the power consumed by the "peak load", while the energy of the other battery is not used. There is also a loss of energy in the device due to the absence of its distribution of ifHbWJiBH6fb distributions during the period between consumers, which ultimately T1 ptVd is due to the utilization of the capacitive battery and the power of the solar battery Compared to their required values. The device does not allow the battery charge to be regulated. The presence of voltage sensors that are set to a predetermined voltage level can be controlled by vani, which permits the use of other types of batteries in subwoofer types of batteries in the device, but without other nominal voltage without: a change in the sensor circuit, and in the case of a necessary f And by increasing the number, the Hcjro4HiiKoB constant current and the batteries included in the device are more numerous; the KBb code blocks increase as much as the electrical and functional connections complicate the device and reduce its reliability; In addition, direct communication between sensors and control units, operating mode control and comparison does not ensure reliable operation of the device during voltage fluctuations in controlled circuits during transients occurring in real devices and caused by switching circuits of consumers, battery charge circuits batteries and the like, since accidental changes in the voltage in these circuits lead to a voltage TbWaiTOroiraf4TiROB and ultimately to an accidental disconnection of the load of the unwanted charging circuit Yes, shorten the life of the batteries and the unit as a whole. The lack of feedbacks in the device from the Complementary elements, i.e., from the switch to the mode control unit, which reflect the actual positions of the switch elements of the switch, also contributes to this. The use of a device for the DLY of power load, for example, artificial satellites of the Earth, is impossible without a change in its structure, since the current telemetry control equipment cannot be directly connected to the device. Usually, they are connected by means of telemetry sensors of voltage and current, which complicate both the device and the telemetry control equipment, which in this case has an encoder and a switch. The drawback of the device is also the sun-dependent dependence of the structure of its control units, operation mode control and comparison on the type, and the number of utilization in the device, on-line, direct current and battery batteries, which makes the equipment used for output control at the Production stages and for offline checks. The process of testing a device is laborious and requires considerable energy due to the use of powerful simulator bn1b15 (such cells as the controlled voltage and current in the test equipment. Thus, the known device is not only difficult, but also has narrow functional; Hbism) and low reliability. The aim of the invention is to enhance the functionality, simplify and increase the reliability of the device. This is the fact that in the proposed device, d0: Pitany load, containing sources of constant current, such as co-and non-coarse batteries, made in a series of separate sections, batteries with SigiLByyi sensors, cables with current sensors , bus switch, control units, operating mode control, comparison and indication, a measuring switch, connected by information inputs to current sensors and buses, a program block, connected address output outputs to the address inputs of a measuring switch and a pack unit, are entered An operation mode, a synchronization unit connected by an output to the control inputs of the program block and a control unit, and a counter of clock pulses connected by an input to the output of the synchronization block, the control unit being designed as an analog-digital converter and a counter of the normalized amount of electricity connected by information inputs to the outputs of the measuring switch, the comparison unit is made in the form of a comparison circuit of the codes connected by inputs to the information outputs of the program block and the analog-digital the converter, and the outputs with the inputs of the operating mode control unit through pulse counters and coincidence circuits, to the other inputs of which the output of the clock counter is connected, connected to the control input of the program block, while the control inputs of the operating mode control unit are connected to the outputs of the signal sensors and the counter ; the normalized amount of electricity, and the outputs to the control inputs of the bus terminals, the normalized amount of electricity and the program block. :.: The inputs of the display unit yogut be simultaneously connected to the signal, outputs of the operating mode control unit, address outputs of the program unit, the outputs of the analog-digital converter and communication terminals with external control and operation mode devices that are connected to other control channels the inputs of the program block, the synchronization block, and the mode control block. By separating measurement and comparison functions combined in known devices in voltage sensors, control and comparison units, expanding the number of monitored circuits and initial conditions setting functions by the measuring switch and program block, as well as introducing new functions into the program block such as control of the control unit, the comparison unit, the measuring switch and the mode control unit, the functionality of the proposed device is expanded. with and at the same time it is simplified: Deist- ingly, with changing the composition of the device. according to the type and number of DC sources and batteries, the control units are comparable and do not change, the structure of the device does not change. Functional possibilities are expanded and the device is simplified by an internal automatic transfer; construction of functional connections of the block; a gram and a mode control unit depending on changes in monitored parameters, thus ensuring the process of controlling the charge of batteries and energy distribution between consumers, sources of direct current and accumulator batteries using a bus commutator. At the same time, the device allows the external control of the edict (by the processes in the case of your program block in the operating mode control block. At the same time, the internal conversion of the monitored values by the analog-digital converter that performs the functions of the meter in the control block, provides direct output of information In digital form in the display unit and on the external, control equipment, which, for example, on artificial Earth satellites ocyaieCT turns out to the commutation of monitored circuits and the coding of the pre-transmission of information by ground stations This fact significantly simplifies the external control equipment and significantly reduces the number of devices and display devices with the external control equipment, which is achieved by using a synchronization unit and an outdated device. a controlled circuit with a specified maximum permissible value and measurement of the parameter that caused the change in the measured parameter. This is carried out by control and comparison units containing pulse counters and a normalized amount of electricity meter; as well as a clock counter and a program block. In addition, the increase is reliable: these are achieved by introducing feedbacks on the effects on the monitored values. Another factor affecting the increase in hope is the reduction in the number of elements in the device by simplifying it. . . The drawing is a block diagram of the described device. - ..; . . The device contains sources 1a-g In-constant current, for example, a solar battery, made in the form of a number of individual sections; batteries ,. 2a-2. with alarm sensors Over-3 ", for example, threshold temperature or pressure sensors; tires 4a - 4e with sensors 5a - 5p.toka, connected to DC power supplies, batteries and consumers 6a - b. and 7 buses switched between themselves; a control unit 8 consisting of an analog-digital converter 9 and a counter 10 of the normalized quantity of electricity; measuring switch 11, connected by inputs to buses and current sensors, and outputs to an n-to-digital converter and a meter of normalized electricity; Lok 12 Comparison, made in the form of Comparison Chart 13 on the signs "More," Less and "Equal, connected in series with the counters 14 pulses and the coincidence circuit 15; a control unit 16 connected by inputs to the outputs of a comparison unit and a control unit, and outputs from a control unit, by their inputs of a bus switch; block 17 programs / connected by address inputs to the address inputs of the measuring switch and control unit, and informational (code outputs to the comparison unit; synchronization unit 18, connected and connected to the analog-to-digital converter, program block and counter 19. pulse pulses with a limited conversion factor, which by its output is connected to the comparison unit and the input of the program block; the display unit 20 connected to the signal outputs of the control unit, the address outputs of the program block and you odes analog-to-digital converter. In order to provide an external control device such as telemetry equipment KSftf role and yzyeneni rezhimaraboty said blocks and outputs control inputs program block, and the block control unit sinhroyt1zatsyy Vyvedey in communication channels.

The device works as follows o15raz6m

From the output of the synchronization unit 18, the clock pulses arrive at the control inputs of the program block 17, the analog-digital converter 9 and the counter 19 clock pulses. With this, c. With each clock pulse, an analog-to-digital converter 9 is started, measuring the voltage at its input, and a clock counter 19 is advanced. From the address outputs of the program block 17, the control inputs of the measuring switch 11 and the control unit 16 receive address signals that, in accordance with the address of the congruent circuit, open the inputs of the control unit to pass signals from the comparison unit 12 and trigger the switching switches of the measuring switch 11 connecting chained chains. From the information outputs, to the program block 17, the code corresponding to the minimum allowable or maximum allowable voltage at the controlled address is entered to the input of the circuit 13 of the comparable codes of the compare unit 12. Thus, with each clock pulse, the output code of the analog-to-digital converter 9, corresponding to the measured voltage value, in the controlled circuit, and the code of the specified maximum allowable voltage in this circuit are compared by the code comparison circuit 13,

the outputs of which form one of the signals, meaning equality or inequality of codes. In the case of equality of codes, a signal is generated at the output P, and in the case of inequality, at the output M or B depending on whether the code value of the analog-to-digital converter 9 is smaller or larger than the code value specified by block 17 of the programs. In the event of a steady increase (decrease) of the voltage in the controlled circuit and the deviation

0 eifo beyond the tolerance limited by MacSimaljo permissible; (minimum allowable) voltage value, the output B (M) of the code comparison circuit 13 generates a signal that fills a 14 B (14 M) pulse with each clock pulse. By completing the monitoring period, i.e., when the counter is filled with 19 clocks having a limited conversion factor, the 1 output signals of the 14 B counter (14, 1) of the pulses coincide

0 with the output signals of the clock counter 19 and at the output of the circuit 15 J5 (15 M) a signal is generated, which is fed to the control unit 16 according to the programmed block 17

address at his entrances.

 The control unit 16 selects, at input C, the control signal of the counter 10 of the normalized amount of electricity and the block 17 of programs, which, arriving at their inputs, start the opening of the counter

O normalized amount of electricity and change the address on the address outputs of the program block. At the same time, the program block address number is changed so that the input of the analog-digital converter 9 remains connected to the measuring switch 11

 to the former controlled circuit, and the meter input of the normalized amount of electricity is connected to the current sensor of this circuit (one of the sensors 5a - 5).

0 After the program has been changed, the period of the cont. The roll repeats, starting with resetting the count: 14 B (14 M) pulses. Thus: control ruema circuit in which the voltage

.. Has reached the maximum allowable (minimum allowable) value, is subject to

 control voltage and at the same time. ifdHf roL. by the amount of electricity flowing in it, to detect the nature of the voltage change in this circuit.

Claims (1)

: do the expiration of the second monitoring period ending with filling the counter of 19 clock pulses, if the voltage in the controlled circuit has not changed or has changed so that the difference between it and the maximum permissible value has increased with (s same sign as in the previous monitoring period, This control unit 16 re-generates a signal at output c, maintaining in the open state the counter 10 of the normalized number of sijiekfritsti and confirming the former address of the controlled circuit for the subsequent monitoring period. So process / control of the same circuit continues until the imitation 10 of the normalized amount of electricity is filled, after which its output a signal is generated, which arrives at the control input n of the control unit 16. By responding to this signal, the control unit removes the control signal from the output, c and stores the input signal in one of the memory cells according to the code set at its address inputs.When the signal is removed from the output from the counter 10, the normalized amount of electricity is reset. This completes the process of monitoring the circuit connected by measuring KoiviMyTaTom 11. The output of the ciermka 19 clock pulses the program advances to the next step. As a result, the output code of the program block 17 is set to the address code of the next monitored circuit and the code of the maximum allowable voltage value of this circuit. The control process of the next circuit is carried out similarly with minimal and maximally acceptable voltage values. When . unsustainable increase (decrease) of voltage in the controlled circuit, for example, when transient processes occur due to switching of the load, reduction of the consumption of the load or the influence of other destabilizing factors during the monitoring period or during the time of filling the counter 10 of the normalized amount of electricity, circuit 13 Comparison of codes generates an output signal not on one, ana two or three of its outputs (depending on the sign of voltage changes), which are calculated by the corresponding counts chikami 14P, 14.W and 145 pulses. Therefore, after the monitoring period expires, the output signals of the counters 14 pulses H € coincide with the output signal of the counter 19 clock pulses. Consequently, on the control unit 16 control signal is not formed, and if it existed, it is also removed by the output signal of the counter 19 clock pulses, the program of the program block 17 is programmed. To control the next circuit. If the voltage in the controlled circuit is in the tolerance field, i.e., in the region bounded by the maximum and minimum acceptable values of the multipliers, the output of the clock counter 19 advances the program of the program block 17, and the control unit 8. connects to the next monitored circuit. Upon completion of the monitoring cycle of all the circuits to be monitored, control unit 16 accumulates state of the control circuits, including the switching elements of the switch 7 buses, performing logical feedback, as well as additional information on the state of the battery circuits. batteries, for example, pressure, temperature, taken from the outputs of the signal sensors Za-Ztg. All this information is processed by the control unit 16 according to a given control law and energy distribution and yes .8b Turns control signals are generated for the bus switch 7, which, acting on the control inputs of this switch, trigger its switching elements and, therefore, , leads to a change in the connections between tires 4a-4. Inter-connection change. in turn, this leads to a change in the distribution of Energy and the resulting change in voltage and current in the controlled circuits. Thus, depending on the requirements for the power supply of consumers, and the composition of the dc current sources and batteries in the program block of the device: a corresponding control and regulation program is introduced to supply the load, according to which the device in one cycle of control Amount of voltage and current in consumers, sources of direct current and batteries of the battery is detected, circuits with a stable deviation of parameters beyond admission are detected, the busbar connection diagram is detected The state of all the monitored circuits is simulated and control signals are generated that correspond to the specified regulatory law and trigger the operation of the switching elements of the switch, i.e., the bus connection pattern changes. So, for example, by evaluating the number of sections of the solar battery la- C connected to the power buses of the Streamers 6a - 6jt {connecting the 4th and 4g tires to the 4d and 4e tires), we can: by changing the number of sections of the solar battles, connecting battery M batteries m 2a "(connecting tires 4b and 4g with 4a and 46), you can perform the required battery charge mode, including the optimal charge mode; by changing the number of sections of the solar battery connected to the consumers and the battery (combination of connections, buses 4a-4e), the maximum power generated by the solar battery can be achieved; by changing the number of consumers connected to batteries (connection of tires 4a and 4o with 4 (and 4e), and the direction of these connections, it is possible to achieve an optimal distribution of battery energy, thereby increasing their service life. The device provides a parametric and signal indication of the monitored circuits, including the bus commutator circuits 7, with the help of the display unit 20, to which from the outputs of the analog-digital converter 9 to cfynaer the code of the measured voltage and current in the controlled circuit, from the output of block 17 of the programs — the address of the monitored circuits, in which the voltage deviated .a limit of allowable values, and from the outputs of control unit 16 — the addresses of the closed (open) circuits of the switch / bus, T.e; Signal and parametric information is sent to the communication channel for removal by its telemetry or other equipment.When the device is operated in conjunction with external devices, for example, with telemetry equipment, clock pulses are from the block. The synchronization signals 18 are removed synchronously with the impulses arriving at its input via the communication channels from the telemetry equipment. At the same time, other channels of communication to the control unit J6 and block 17 of the Program receive signals on changing the control mode or the control mode or changing both modes, according to n8 9 | SchGm the control program of the njSorpaMM block, the control program of the control block or simultaneously Orogragym. In this regard, the promotion of the Program and the removal of telemetric information from the communication channels of the device can be; (both at each clock pulse, and at the time of filling the counter 1.9 clock pulses, i.e. for one | Voice, and the change in the values of the maximum allowed parameters of the monitored Circuits and bus connection diagrams — directly; Ignals via communication channels to the program block and the control block. The use of the proposed device, on artificial satellites of the Earth, is possible, and if the device has a large number of direct current sources, batteries and consumers, both at magnifications kolichsstva circuits controlled device number of elements is increased slightly. This is due to the fact that with an increase in the number of controlled circuits: the number of elements of the device increases only due to an increase in the number of elements of the measuring switch 11, while the remaining blocks remain practically unchanged. At the same time, the presence of the Program block in the device allows one to introduce into the device any desired law of energy regulation and distribution, any control sequence, any maximum permissible parameter values. All this predetermines the area of its application. For example, using a device to power the load on modern artificial satellites of the Earth makes it possible to exclude the coding block and switch input circuits from the telemetry control equipment of the satellite, to increase the time of active satellite, to reduce the power of solar cells. remove a large amount of information with increased accuracy. . The proposed device is compared; with the device for feeding the load of the spacecraft the Soyuz allows to increase the accuracy of control and regulation of energy twice; increase the number of control points four times; Reduce the number of channels. Communication with the telemetry and control and test. equipment 6 times; reduce weight five times. and volume eight times; completely exclude .contact elements from the circuit, and reduce the total number of circuit elements (and the circuit does not consist of microcircuits); increase reliability; reduce the device testing time by 60 times; reduce the volume of testing equipment by three times; simplify telemetry control equipment and can be used on other known space objects. . ... In connection with the variety of space objects, there is also a variety of complex, individual for each object, test equipment. devices for powering the load. With the application of a device on space objects, test equipment becomes simpler and becomes uniform for all objects. Claim 1. Device for powering a load, containing direct current sources, such as solar panels, made in a series of individual sections, batteries, batteries with signal sensors, and, shee. Hbit current sensors, bus switch, control blocks, control of operation and comparison, the unit of INDICAIN, characterized in that, in order to extend the functionality, simplify and increase reliability, in Negre are introduced the measuring. switch connected by information inputs to sensors, current and buses, program block connected by address outputs to address inputs of measuring switch and operating mode control block, synchronization block connected by output to control inputs of program block and control block, and counter