RU196721U1 - Case for a mobile electronic device - Google Patents

Abstract

The invention relates to the field of accessories for mobile electronic devices, in particular to multifunctional cases for mobile electronic devices: phones, tablets, etc., and can be used to heat mobile electronic devices in the cold season. The technical result is an increase in heating efficiency by increasing the heating rate and providing the ability to control the heating temperature. The case for a mobile electronic device comprises a housing, a heating element installed in the housing, connected to a power source and a microcontroller, means for communicating with a mobile electronic device. The microcontroller includes means for generating pulse width modulation. The heater is connected to the power source through a bridge circuit including two pairs of semiconductor switches. The microcontroller is connected to the bridge circuit and the heater through two control semiconductor keys, each of which is connected to one pair of keys of the bridge circuit. In this case, the bridge circuit includes a current sensor, and a temperature sensor is installed in the case body. 4 ill.

Description

The utility model relates to the field of accessories for mobile electronic devices, in particular to multifunctional cases for mobile electronic devices: phones, tablets, etc., and can be used to heat mobile electronic devices in the cold season.

A well-known mobile phone case with an electric heating element according to China Patent Utility Model CN202496595, A45C11 / 24, 2012, comprising a housing, a heating element located in the housing, made in the form of a wire of metal with high electrical resistance, the heating element is surrounded by a protective layer. The protective layer is made of heat-conducting material from the side of the case and heat-insulating from the side of the mobile phone. The heating element is equipped with a thermostat. The heating element is powered by the battery of the mobile phone.

The disadvantages of the known device are the inability to heat the battery of the mobile device in the cold season due to the presence of a heat-insulating layer between the heating element and the mobile device, low heating efficiency due to the use of the battery power of the mobile phone, and the inability to control heating and other functions of the case.

Known is a mobile phone case with a heating function according to the Chinese patent CN103704966, A45C13 / 00, 2014, comprising a housing, a heating element installed in the housing in the form of a metal wire with high resistance and a sufficiently large cross section, surrounded by a two-layer material, the upper layer of which made of heat-conducting material, and the bottom is made of heat-insulating material. The heating element is connected via a double-ended cable to a mobile phone equipped with software for controlling the heating mode.

A disadvantage of the known device is the low heating efficiency due to the lack of its own power source in the case, and also because of the connection of the heating element to the power source, in which heating is not fast enough. There is no possibility of regulation of heating.

Known mobile phone case according to the application of Korea for the invention KR20140098297, A45C11 / 00, 2014, selected as the closest analogue. The well-known case contains a main body and a cover, a power source in the form of a battery installed inside the case, a heating element in the form of a plate located in the cover of the cover between the polyurethane insulation layers, a heating mode switch, a terminal for communication with a mobile phone, a display with light indication , heating and charging control board.

The disadvantage of the closest analogue is the lack of heating efficiency due to the control circuit of the heating element, which does not allow for quick heating of the heating element and smooth regulation of the heating temperature.

The technical result of the utility model is to increase the heating efficiency.

The technical result is achieved by the fact that in a case for a mobile electronic device comprising a housing, a heating element mounted in the housing connected to a power source and a microcontroller, means for communicating with a mobile electronic device, according to a utility model, the microcontroller includes means for generating pulse width modulation while the heater is connected to the power source through a bridge circuit that includes two pairs of semiconductor switches, and the microcontroller is connected to a bridge circuit heater control through two semiconductor switches, each associated with one pair of keys of the bridge circuit, the bridge circuit includes a current sensor, and a cover mounted temperature sensor in the housing.

The technical result is achieved through the use of a bridge circuit for connecting a heating element, including semiconductor switches that switch according to a predetermined algorithm under the control of a microcontroller with a pulse-width modulation (PWM) generator. The possibility of such control is provided by the connection of the microcontroller with the bridge circuit by means of control keys. The key switching algorithm of the bridge circuit is set by the microcontroller in accordance with the program, depending on the type of heating element. The pulsed energy supply in the form of pulses of different polarity, in combination with a preset key switching algorithm, implements a double run of the current through the heating element and generates a voltage with a double amplitude on the heater relative to the bridge circuit power. This speeds up the heating of the heating element. With a constant current, the heating power increases by 70-90%. A bridge circuit for connecting a heating element under PWM control allows you to change the key switching frequency from units of Hz to hundreds of kHz. Switching the keys under the control of the microcontroller with PWM makes it possible not only to quickly change the frequency, but also the duty cycle (width) of the supplied pulses, as well as the duration of the "dead time", which is understood as the delay between switching on the upper and lower keys in one arm of the bridge circuit. Changing the pulse width of the energy supply allows you to adjust the heating depending on the ambient temperature. The regulation of the duration of the "dead time" allows you to prevent the flow of through currents. Using a bridge circuit allows you to generate a unipolar, or bipolar frequency signal, or to supply direct current. This feature allows you to use different types of heaters: a wire of metal with high electrical resistance, a metal plate, film materials, etc. can be using a current sensor included in the bridge circuit and connected to the analog-to-digital converter (ADC) of the microcontroller, the microcontroller is under control The ADC implements the protection of the heating element by disabling the operation of the bridge circuit when the specified current value is exceeded. All this increases the heating efficiency of the heating element.

Figure 1 shows a case for a mobile electronic device.

Figure 2 shows a front view of the case for a mobile electronic device.

Figure 3 shows the bridge control circuit of the heating element of the case for a mobile electronic device when current flows from the left shoulder of the bridge circuit to the right.

Figure 4 shows the bridge control circuit of the heating element of the case for a mobile electronic device when current flows from the right shoulder of the bridge circuit to the left.

The case for a mobile electronic device includes a housing 1, inside of which there is a power source 2, a heating element 3, a microcontroller 4. The external part of the housing 1 displays: light indication 5, a heating mode control button 6, connectors 7 and 8 for connecting external devices. The heating element 3 is controlled using a bridge circuit, including semiconductor switches K2, K3, K5, K6, directly implementing the bridge circuit and semiconductor control keys K1 and K4. The device includes a current sensor T (FIGS. 3 and 4) and temperature sensors (not shown in the figures).

A case for a mobile electronic device operates as follows.

The case 1 of the case is made of both soft and hard material: leather, plastic, etc. To implement and control the heating function, as well as other functions, in particular charging a mobile electronic device, a microcontroller 4 board is installed in case 1, for example, architecture Cortex-M3. As means for generating PWM, the microcontroller 4 is equipped with a multifunction timer with a pulse width modulation function, for example, STM32F103, integrated in the microcontroller 4 or other known means. Microcontroller 4 is also equipped with a multi-channel 12-bit analog-to-digital converter, various serial interfaces UART, I2C, SPI for connecting modules for contactless data transfer (Bluetooth), contactless data exchange with RF tags (NFC), wireless power transfer (WPC), etc. The case 1 of the case is equipped with a 7 USB connector for connecting a mobile electronic device, as well as an 8 micro-USB connector for connecting a charging unit. A heating element 3 and a power supply 2, connected to the microcontroller 4, are placed in the housing 1. A temperature sensor is installed in the housing 1 near the heating element 3. Another temperature sensor can be installed near connector 7 for connecting a mobile electronic device. The heating element 3 is a plate or wire of metal with high electrical resistance, such as tungsten, enclosed in a dielectric sheath. Can also be applied to the heating element 3 in the form of a film, or an inductive heating element. As a power source 2 for the case using a rechargeable battery, mainly lithium. The heating element 3 is connected to a power source 2 through a bridge circuit including two pairs of semiconductor switches. The microcontroller 4 is connected to the heating element through a bridge circuit by means of two control semiconductor switches, each of which is connected to one pair of semiconductor switches of the bridge circuit. As semiconductor switches, both bipolar and field effect transistors can be used. Figures 3 and 4 show a bridge circuit implemented on semiconductor switches K2, K3, K5, K6. Two keys K1 and K4 are control keys. The bridge circuit and the microcontroller 4 are powered from the power source 2. The control switches K1 and K4 are used to coordinate the supply voltages of the microcontroller 4 and the bridge circuit and generate control signals for the upper keys of the bridge circuit K2 and K5. The work of the bridge circuit is carried out under the control of the PWM microcontroller 4, according to the specified algorithm. The algorithm is set by the program depending on the type of heating element and sets the frequency and duty cycle of switching keys, as well as the duration of the "dead time". First, the lower key K3 of the left shoulder of the bridge circuit and the upper key K5 of the right shoulder of the bridge circuit are simultaneously turned on. When this current flows through the heating element 3 in the direction from the right shoulder of the bridge circuit to the left (figure 4). Then all keys are turned off. Further, in accordance with the algorithm specified by the microcontroller 4, the upper key K2 of the left shoulder of the bridge circuit and the lower key K6 of the right shoulder of the bridge circuit are turned on. The current flows through the heating element 3 in the direction from the left shoulder to the right (figure 3). Then all keys are turned off again. Under the influence of the passing current, the heating element 3 heats up. The passage of current through the heating element 3 in two directions accelerates its heating. The bridge circuit includes a current sensor T, connected to one of the ADC channels of the microcontroller 4, to protect the heating element 3. The microcontroller, using the ADC, converts the readings of the current sensor to a digital value. The program operating in the microcontroller, in case of exceeding the set current value, gives a command to turn off the operation of the bridge circuit and, accordingly, turn off the heating.

The selection and regulation of the heating mode is carried out through the interface of a mobile electronic device equipped with special software using means of contactless data exchange, for example, Bluetooth. To control the heating and the charge level, an indication 5 of several LEDs is installed on the housing of the 1 case. Various combinations of luminous and non-luminous LEDs indicate the state of heating or charging of the mobile device in the case. If it is impossible to use a mobile electronic device to control heating and charging, the case is equipped with a control clock button 6, which allows you to enable and disable heating and charging of the mobile electronic device. The presence of temperature sensors associated with the ADC of the microcontroller 4, allows in automatic mode with a given frequency to measure and maintain the required surface temperature of the mobile electronic device.

In the cold season, a mobile electronic device, for example, a smartphone or tablet, is placed in a case with a heating function so that the heating element 3 is located opposite the battery of the device. Through the interface of a smartphone or tablet, the optimum temperature is set depending on the ambient temperature. The corresponding combination of flashing LEDs on the surface of the case will show that the case is in heating mode to the temperature set via the smartphone or tablet interface. If the mobile electronic device is discharged and it is not possible to set the heating mode through it, then the heating is controlled using a clock button 6, which allows you to enable, disable, switch heating modes depending on the length of the button is held.

Thus, the utility model allows to increase the heating efficiency by increasing the heating rate and the ability to control the heating temperature.

Claims (1)

A case for a mobile electronic device, comprising a housing, a heating element mounted in the housing, connected to a power source and a microcontroller, means for communicating with a mobile electronic device, characterized in that the microcontroller includes means for generating pulse width modulation, wherein the heater is connected to a source power supply through the bridge circuit, including two pairs of semiconductor switches, and the microcontroller is connected to the bridge circuit and the heater through two control semiconductors ovyh key, each associated with one pair of keys of the bridge circuit, the bridge circuit includes a current sensor, and a cover mounted temperature sensor in the housing.

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