KR19990013101A - Transmission battery charging device and method according to the voltage status of the receiving battery of the bidirectional pager - Google Patents

Abstract

end. The technical field to which the invention described in the claims belongs

The present invention relates to a transmitting battery charging device and a method according to a voltage state of a receiving battery of a bidirectional pager.

I. The technical problem that the invention is trying to solve

The present invention provides an apparatus and method for charging a transmitting battery according to a receiving battery voltage state of a bidirectional pager which charges a transmitting battery according to a voltage of a receiving battery and prevents degradation of receiving performance.

All. Summary of Solution of the Invention

A bidirectional pager having a memory for storing charge time and remaining charge time, comprising: a first process of reading the remaining charge time and checking whether the remaining charge time is zero; The second process of continuously checking whether the voltage state of the secondary battery is low during the mode and transmission and reception operation, and if the secondary battery is low to turn on the charging unit to charge, and if the charging unit is turned on, a timer included in the controller The third step of counting the charging time by the battery; and checking if the voltage of the primary battery is lower than the reference voltage, and turning off the charging unit, and minus the charging time counted from the set charging time to calculate the remaining charge time and memory. Characterized in that the fourth process of storing in.

la. Important uses of the invention

Used to charge the bidirectional pager.

Description

Apparatus and method for charging a transmitting battery according to the voltage state of a receiving battery of a bidirectional pager

The present invention relates to an apparatus and method for charging a two-way pager transmission battery, and more particularly, to a transmission battery charging device according to a state of a two-phase pager receiving battery that charges the transmission battery according to a voltage state of the transmission battery and prevents a decrease in reception performance. It is about a method.

One-way paging uses AAA batteries, which are ordinary batteries, and uses power only for reception. Unidirectional paging is also powered by low power during reception, allowing long hours of use with regular AAA batteries.

However, bidirectional paging is a service in which a response channel is added to an existing unidirectional service, that is, a service capable of transmitting as well as receiving. Typically, only low power is used for reception, but a lot of power is required for transmission. Bidirectional paging requires a lot of power for transmission, so ordinary AAA batteries cannot handle this. To solve this problem, bidirectional pagers use nickel-cadmium (NI-CD) batteries as transmit batteries, and general AAA batteries as receive batteries. However, the receiving battery is used as a charging battery for charging the transmitting battery when the voltage of the transmitting battery is low.

1 is a block diagram of a general bidirectional pager.

1, a general configuration of a bidirectional pager includes a controller 10, a memory 20, a transmitter 120, a receiver 110, a display unit 30, a first voltage detector 90, and a second controller. The voltage detector 100, the primary battery 40, the secondary battery 50, the DC / DC converter 60, and the charging unit 70 are configured. First, the controller 10 controls the overall operation of the bidirectional pager by a predetermined program, and analyzes and processes the received data. The memory 20 stores protocols and messages for communication with an operating program. The display unit 30 displays dialing data transmitted and received, and displays an operation state of the bidirectional pager, and the like. The primary battery 40 is a receiving battery that provides low power to the receiver, and provides low power in common to the DC / DC converter and the charging unit. The DC / DC converter 60 receives power from the primary battery 40 and boosts the voltage to 1.5V, which is the voltage of a general AAA battery, to 3V as a power source for operating a circuit. Output The secondary battery 50 is a transmission battery that provides a high power to the transmitter 110, and typically uses a nickel cadmium (NI-CD) battery. The first voltage detector 90 detects the voltage of the primary battery, compares the detected voltage of the primary battery 40 with a reference voltage, and the detected voltage of the primary battery 40 is less than the reference voltage. If it is, the primary battery low signal is output to the controller 10. The second voltage detector 100 is connected to the secondary battery, detects the voltage of the secondary battery 50, and compares the detected voltage of the secondary battery 50 with a reference voltage to the secondary battery 50. If the voltage is small, the secondary battery low signal is output to the controller 10. The charging unit 70 includes a charging circuit 72 and a switching unit 74. The charging circuit 72 receives the power from the primary battery unit 40 to form a charging current. The switching unit 74 receives the charge by the charging current formed in the charging circuit 72 under the control of the controller 10 to charge the secondary battery 50. The receiver 100 receives a radio signal through the antenna AT1, demodulates the received radio signal, and outputs data to the controller 10. The transmitter 110 receives the message data from the controller 10, modulates the message data into a wireless signal, and transmits the message data through the antenna AT2.

2 is a flow chart showing a main battery charging method of a conventional bidirectional pager.

1 and 2, the second voltage detector 90 is connected to the secondary battery 40, and detects the voltage of the secondary battery 50 in the standby state to control the controller 10. Outputs a secondary battery low signal. The controller 10 continuously checks in step 202 whether a secondary battery low signal is detected from the secondary battery 50. When the secondary battery low signal is detected from the first voltage detector 90, in step 204, the controller 10 operates the charging unit 70, and in step 206, the controller 10 is included in the controller 10. Start a count by operating a timer (not shown). In step 208, the controller 10 charges the secondary battery at about the same time as the count of the timer. When charging starts, in step 210, the controller 10 continuously checks whether the preset charging time and the counted charging time are the same in the memory. If the counted charging time is equal to the set charging time, in step 212, the controller 10 turns off the switching unit 74 of the charging unit 70 to terminate charging and returns to the standby mode.

As described above, the secondary battery is charged after the low battery or the secondary battery is inevitably generated by using the primary battery to charge the secondary battery, and the voltage drop of the primary battery inevitably occurs. In the low state, there is a problem that the voltage drop of the primary battery is severe and the performance of the receiving block using the primary battery is degraded or inoperable.

Accordingly, an object of the present invention is to receive a bidirectional pager which charges only when the voltage drop of the primary battery generated when the secondary battery is charged using the primary battery in the bidirectional pager does not cause an abnormality in the reception block performing normal performance. The present invention provides a charging battery charging apparatus and method according to a voltage state of a battery.

1 is a block diagram of a general bidirectional pager.

Figure 2 is a flow chart showing a conventional battery charging method of the two-way pager.

3 is a flowchart illustrating a charging method of a transmitting battery according to a voltage state of a receiving battery of a bidirectional pager according to an exemplary embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals have the same reference numerals as much as possible even if displayed on different drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

3 is a flowchart illustrating a charging method of a transmitting battery according to a voltage state of a receiving battery of a bidirectional pager according to an exemplary embodiment of the present invention.

Referring to FIG. 3, first, when power is turned on in step 301, the controller 10 reads the remaining charge time from the memory 20 in step 302. After reading the remaining time, the controller 10 checks whether the remaining charge time is zero or a finite value smaller than the charge time value set in the memory 20 in step 303. If the remaining charge time is zero, in step 304 the control unit 10 is set to the standby mode and transmit and receive. The second voltage detector 100 detects the voltage of the secondary battery 50 during the standby mode or the transmission / reception operation. At this time, if the voltage of the secondary battery 50 is low, the second voltage detector 100 outputs the secondary battery low signal. The controller 10 detects the secondary battery low signal and determines that the secondary battery 50 as the transmit battery is low (step 305). Then, in step 306, the controller 10 outputs a charging signal to the switching unit 74 of the charging unit 70 to turn on the switching unit 74 and starts charging the secondary battery 50. . At the same time as the switching unit 74 is turned on, in step 307, the control unit 10 operates a timer included in the control unit 10 to count the charging time. However, if the remaining charge time in step 303 has a finite value instead of zero, the controller 10 charges for the remaining charge time and ends. In operation 309, the first voltage detector 90 detects the voltage of the primary battery 40 under the control of the controller 10. In operation 310, the first voltage detector 90 compares the detected voltage of the primary battery 40 with a reference voltage. When the primary battery voltage at which the comparison result is detected is smaller than the reference voltage, the first voltage detector 90 outputs the primary battery low signal. The controller 10 detects this and outputs a charging end signal in step 311 to turn off the switching unit 74 to end charging. After completing the charging, in step 312, the controller 10 calculates the remaining charging time by minus the charging time counted from the preset charging time stored in the memory 20. In operation 313, the controller 10 stores the remaining charge time in the memory 20. In step 314, the controller 10 checks whether the power is turned off, terminates the process if it is off, and sets the standby mode if it is not turned off. However, if the primary battery voltage is greater in step 310, in step 314, the controller 10 checks whether the counted time and the charging time set in the memory 20 are the same. If the counted time is the same as the preset charging time, the controller 10 ends the charging by turning off the switching unit 74 in step 315. After the charging is finished, the remaining charge time is set to zero and stored in step 316.

As described above, the present invention maintains the performance of the receiving unit by stopping the charging when the voltage drop of the primary battery is below the reference voltage while charging the secondary battery, and compensates the remaining charging time when replacing with a new battery. As a result, the performance of the receiver according to the voltage drop of the primary battery during charging is advantageously maintained.

Claims (5)

Bidirectional with a receiving unit receiving a predetermined low power and receiving a radio signal through a receiving antenna, demodulating and outputting the data, and a transmitting unit for demodulating the predetermined high power input data into a radio signal and transmitting it through the transmitting antenna. In the phaser, A memory for storing charge time and remaining charge time, and data generated during program execution; A DC / DC converter for boosting the voltage to a voltage capable of operating a circuit by receiving a predetermined low power and outputting a driving voltage; A charging unit configured to receive a predetermined low power to form a charging current and to output the charging current under a predetermined control; A primary battery for supplying low power to the receiver, a DC / DC converter, and a charging circuit; A secondary battery that provides a high power to the transmitter and is charged by receiving a charging current from the charger; A first voltage detector connected to the primary battery to detect a voltage output from the primary battery, and comparing the detected voltage with a reference voltage and outputting a primary battery low signal if the detected voltage is lower than the reference voltage Wow, A second voltage detector connected to the secondary battery to detect a voltage of the secondary battery, and compare the detected voltage with a reference voltage and output a secondary battery low signal if the detected voltage is lower than the reference voltage; It operates by receiving the driving voltage output from the DC / DC converter, receives the secondary battery low signal from the second voltage detector and outputs a charging signal to operate the charging unit to output the charging current to the secondary battery. At the same time as the operation of the charging unit, the internal timer is counted, the secondary battery low signal is input from the second voltage detector to charge the secondary battery, and the primary battery low signal is received from the first voltage detector. The charging unit is turned off to cut off the charging current, and a control unit for calculating the charge remaining time and storing it in the memory by minus the charging time counted from the charging time set in the memory. Transmission battery charging device according to. The method of claim 1, wherein the charging unit, A charging circuit configured to receive a low power from the primary battery to form a charging current; Transmitting battery charging apparatus according to the voltage state of the receiving battery of the two-way pager, characterized in that made of a switching unit for turning on and off the charging current under the control of the controller. A bidirectional pager having a memory for storing charge time and remaining charge time, A first process of reading the remaining charge time and checking whether the remaining charge time is 0; A second process of continuously checking whether the voltage state of the secondary battery is low during the standby mode and transmitting / receiving operation when the remaining charge time is 0, and turning on the charging unit to charge when the secondary battery is low; A third process of counting a charging time by a timer included in a controller when the charging unit is turned on; Investigating whether the voltage of the primary battery is smaller than the reference voltage, the small part is turned off, and the fourth step of calculating the remaining charge time and storing it in the memory by minus the charging time counted from the set charging time. Method of charging a transmitting battery according to the voltage status of the receiving battery of the bidirectional pager. The method of claim 3, A fifth process of counting and charging the charging time if the primary battery voltage is large in the fourth process; A sixth step of checking whether the counted charging time is equal to the set charging time stored in the memory, and if the counted charging time is equal to the set charging time, turning off the charging unit and setting the remaining charge time to zero; Transmitting battery charging method according to the voltage state of the receiving battery of the bidirectional pager characterized in that it further comprises. The method of claim 3, And a sixth process of charging the secondary battery unit by turning on the charging unit for the remaining charge time in the first process if the remaining charge time has a finite value.