CN113839970B - Data uploading method and Internet of things equipment - Google Patents

Abstract

The embodiment of the invention provides a data uploading method and an Internet of things device, wherein the data uploading method comprises the following steps: when uploading data, parameter information of a battery of the Internet of things equipment is obtained; and uploading data through the narrow-band internet of things NB-IOT communication module of the internet of things equipment according to the parameter information of the battery. The scheme of the invention can better protect and utilize the dry battery, and can better exert the performance and the power consumption of the NB-IOT equipment.

Description

A data upload method and Internet of Things device

Technical field

The present invention relates to the technical field of Internet of Things, and in particular, refers to a data upload method and Internet of Things equipment.

Background technique

In the field of Internet of Things technology, its related NB (narrowband) modules have outstanding standby ultra-low power consumption in PSM (Power Saving Mode) mode, making them widely used in various industries.

In the current solution, many scene designs use different numbers of dry batteries to power NB-IOT devices. For example, smart NB-IOT (Narrow Band Internet of Things, narrowband Internet of Things) lock. Commonly used cost-effective dry batteries are alkaline batteries. At the same time, the relevant NB-IOT devices will set different upload cycles, such as configuring the relevant cycles to upload relevant collection data according to 1H (hour), 3H, 6H, 24H, etc. Let the device actively upload relevant data information. In order to facilitate data collection and related control work on the server side.

In the power supply design of related NB-IOT equipment, different numbers of dry batteries are used or connected in series or parallel, and through DC-DC (Direct current-Direct current converter, DC-DC converter) power chip or LDO (Low Dropout Regulator, low-voltage linear regulator) chip supplies power to the NB-IOT module or chip and related main control.

Because the working temperature of dry batteries is -20℃-60℃. Among them, the optimal working temperature of dry batteries is 23±2℃. It is worth noting that alkaline dry batteries are basically unable to discharge when the temperature is -20°C and cannot be used. At the same time, since it cannot be discharged at -20℃, at other temperatures, for example, in the -20℃-0℃ range, the discharge capacity of dry batteries will definitely be compromised. Too high a temperature or too low a temperature will definitely affect the discharge capacity of the dry battery, which will affect the performance of the NB-IOT device and reduce the overall performance. Under the same power conditions, the dry battery can provide sufficient current driving capability when the NB-IOT device is uploading at normal temperature. However, when the temperature is too low or too high, the relevant current driving capability is not enough to provide the equipment. Uploading is required instantly. Especially when the battery is low, in an environment that is too high or too low, the NB-IOT device requires a large current when uploading data. At this time, the dry battery cannot provide such a large current driving capability. The instantaneous high current demand will pull the voltage of the dry battery very low. If the voltage of the dry battery is too low to meet the minimum input voltage requirements of the DC-DC or LDO power chip, the output voltage will be abnormal, causing the entire NB-IOT device to Work abnormally.

Contents of the invention

The technical problem to be solved by the present invention is to provide a data upload method and Internet of Things equipment that can better protect and utilize dry batteries, so that the NB-IOT equipment can achieve better performance in terms of performance and power consumption.

In order to solve the above technical problems, the technical solutions of the present invention are as follows:

A data upload method, applied to Internet of Things devices, the method includes:

Obtain the parameter information of the battery of the Internet of Things device when uploading data;

According to the parameter information of the battery, data is uploaded through the narrowband Internet of Things NB-IOT communication module of the Internet of Things device.

Optionally, according to the parameter information of the battery, upload data through the narrowband Internet of Things NB-IOT communication module of the Internet of Things device, including:

According to the temperature of the battery, upload data through the NB-IOT communication module of the Internet of Things device; or,

According to the battery voltage and battery temperature, data is uploaded through the NB-IOT communication module of the Internet of Things device.

Optionally, upload data through the NB-IOT communication module of the Internet of Things device according to the battery voltage and battery temperature, including:

If the voltage of the battery is higher than the first preset voltage value, upload data through the NB-IOT communication module of the Internet of Things device according to the configured cycle;

If the voltage of the battery is lower than the second preset voltage value, data is uploaded through the NB-IOT communication module of the Internet of Things device according to the temperature of the battery.

Optionally, according to the temperature of the battery, upload data through the NB-IOT communication module of the Internet of Things device, including:

If the temperature of the battery is lower than the first preset temperature value, no data is uploaded; otherwise, data is uploaded through the NB-IOT communication module of the Internet of Things device;

If the temperature of the battery is higher than the second preset temperature value, no data is uploaded; otherwise, data is uploaded through the NB-IOT communication module of the Internet of Things device.

Optionally, the data upload method also includes: if the temperature of the battery at the next upload time point is higher than the first preset temperature value or lower than the second preset temperature value, combine the data at the previous upload time point and this time. The data at the upload time point is uploaded together through the NB-IOT communication module of the Internet of Things device.

An embodiment of the present invention also provides an Internet of Things device, including:

The main control module is used to obtain the parameter information of the battery of the Internet of Things device when uploading data;

The main control module uploads data through the narrowband Internet of Things NB-IOT communication module of the Internet of Things device according to the parameter information of the battery.

Optionally, the main control module is specifically configured to upload data through the NB-IOT communication module of the Internet of Things device according to the temperature of the battery; or, according to the voltage and temperature of the battery, upload data through the The NB-IOT communication module of the Internet of Things device uploads data.

Optionally, when the main control module uploads data through the NB-IOT communication module of the Internet of Things device according to the voltage and temperature of the battery, it is specifically used for:

If the voltage of the battery is higher than the first preset voltage value, upload data through the NB-IOT communication module of the Internet of Things device according to the configured cycle;

If the voltage of the battery is lower than the second preset voltage value, data is uploaded through the NB-IOT communication module of the Internet of Things device according to the temperature of the battery.

Optionally, according to the temperature of the battery, upload data through the NB-IOT communication module of the Internet of Things device, including:

If the temperature of the battery is lower than the first preset temperature value, no data is uploaded; otherwise, data is uploaded through the NB-IOT communication module of the Internet of Things device;

If the temperature of the battery is higher than the second preset temperature value, no data is uploaded; otherwise, data is uploaded through the NB-IOT communication module of the Internet of Things device.

Optionally, the main control module is also used to: if the temperature of the battery at the next upload time point is higher than the first preset temperature value or lower than the second preset temperature value, combine the data at the previous upload time point and The data at this upload time point is uploaded together through the NB-IOT communication module of the Internet of Things device.

The above solution of the present invention at least includes the following beneficial effects:

The above solution of the present invention obtains the parameter information of the battery of the Internet of Things device when uploading data; uploads data through the narrowband Internet of Things NB-IOT communication module of the Internet of Things device according to the parameter information of the battery; At different voltage thresholds and at different temperatures, data uploading is performed or not performed. Or, at the upload time point, enable low temperature and high temperature temperature comparison. Thereby performing or not performing the work of uploading data. Achieve better protection and utilization of dry batteries, so that NB-IOT equipment can achieve better performance in terms of performance and power consumption.

Description of the drawings

Figure 1 is a system architecture diagram of the Internet of Things device of the present invention;

Figure 2 is a schematic flow chart of the data upload method of the present invention;

Figure 3 is a specific implementation flow chart of the data upload method of the present invention.

Detailed ways

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. Although exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be implemented in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided to provide a thorough understanding of the disclosure, and to fully convey the scope of the disclosure to those skilled in the art.

As shown in Figure 1, the relevant methods are explained using a dry battery-powered NB-IOT module or chip design framework diagram. Several dry batteries are connected in parallel or in series, and the relevant appropriate DC-DC/LDO chips are output. The voltage supplies the NB-IOT module or chip and the main control module to work. The ADC (Analog-to-Digital Converter, analog-to-digital converter) circuit of the main control module samples the voltage of the dry battery. At the same time, the temperature detection circuit is placed close to the chip to detect the temperature of the battery terminal and transmit the relevant temperature to the main control module. The main control module performs corresponding strategic operations based on the relevant temperature.

As shown in Figure 2, an embodiment of the present invention proposes a data upload method, which is applied to Internet of Things devices. The method includes:

Step 21: Obtain the parameter information of the battery of the Internet of Things device when uploading data;

Step 22: Upload data through the narrowband Internet of Things NB-IOT communication module of the Internet of Things device according to the parameter information of the battery.

The method according to this embodiment of the present invention obtains the parameter information of the battery of the Internet of Things device when uploading data; according to the parameter information of the battery, through the narrowband Internet of Things NB-IOT communication of the Internet of Things device The module uploads data; under different voltage thresholds and different temperatures, it performs or does not perform the work of uploading data. Or, at the upload time point, enable low temperature and high temperature temperature comparison. Thereby performing or not performing the work of uploading data. Achieve better protection and utilization of dry batteries, so that NB-IOT equipment can achieve better performance in terms of performance and power consumption.

In an optional embodiment of the present invention, step 22 may include:

Smart mode: Upload data through the NB-IOT communication module of the Internet of Things device according to the temperature of the battery; or,

Semi-intelligent mode: Upload data through the NB-IOT communication module of the Internet of Things device according to the voltage and temperature of the battery.

Here, in the semi-intelligent mode, data is uploaded through the NB-IOT communication module of the Internet of Things device according to the voltage and temperature of the battery, including:

If the voltage of the battery is higher than the first preset voltage value, upload data through the NB-IOT communication module of the Internet of Things device according to the configured cycle;

If the voltage of the battery is lower than the second preset voltage value, data is uploaded through the NB-IOT communication module of the Internet of Things device according to the temperature of the battery.

In the smart mode and semi-smart mode of the above embodiments of the present invention, data is uploaded through the NB-IOT communication module of the Internet of Things device according to the temperature of the battery, including:

If the temperature of the battery is lower than the first preset temperature value, no data is uploaded; otherwise, data is uploaded through the NB-IOT communication module of the Internet of Things device;

If the temperature of the battery is higher than the second preset temperature value, no data is uploaded; otherwise, data is uploaded through the NB-IOT communication module of the Internet of Things device.

In an optional embodiment of the present invention, the above data upload method may also include: if the temperature of the battery at the next upload time point is higher than the first preset temperature value or lower than the second preset temperature value, the previous The data at the upload time point and the data at this upload time point are uploaded together through the NB-IOT communication module of the Internet of Things device.

As shown in Figure 2, it is a flow chart of a specific solution of the above method. The user can configure three working modes through the relevant configuration page or APP. These three modes are regular mode, semi-intelligent mode and intelligent mode;

1. Normal mode: In this mode, the NB-IOT device uploads data information according to the user-configured upload cycle. For example, if the user configuration cycle is 1H, in this mode, the device uploads data information at intervals of 1H.

2. Semi-intelligent mode: In this mode, combined with the relevant temperature, battery high and low voltage, the relevant uploading strategies are different.

If the voltage of the battery is higher than the first preset voltage value, for example, the dry battery VH high voltage condition (this high voltage is determined based on the number of dry battery cells and the actual test of the relevant system), because at high voltage, the current driving capability of the dry battery is relatively strong. . The upload cycle of the NB-IOT device still follows the cycle set by the user in advance (such as 1H), regardless of the external temperature. Upload relevant data information according to the configured cycle. At this time, the temperature detection circuit does not work, thereby achieving the purpose of power saving.

However, when the dry cell VL is at low voltage (VL is a general term for voltages less than VH), due to the low voltage, the current driving ability of the dry cell is already relatively poor. Coupled with low or high temperatures, the performance is even worse, and it is easy to cause abnormalities when supplying large currents. . The upload time of the NB-IOT device will be adjusted according to the external temperature to achieve a more suitable temperature before uploading.

At this time, the temperature detection circuit starts to work and defines the relevant low-temperature TL (i.e., the above-mentioned first preset temperature value) and high-temperature TH (i.e., the above-mentioned second preset temperature value) temperature. When the temperature is lower than the TL temperature, the data uploading work is not performed. , at a temperature higher than TH, the related upload data work is also not performed. Of course, this TL and TH need to be implemented based on actual application needs and actual testing.

Use the temperature collected at each upload point to compare with TL and TH. If the temperature collected at the upload time point t0 is lower than TL or higher than TH, the data uploading work will not be performed; if the temperature collected at the time point t0 is later than tN There is a temperature greater than TL or lower than TH. Once there is a relevant temperature, the work of uploading data will be executed. And upload the data at the time points that were not uploaded before. If the upload work was not performed at the previous upload time point, the data at the non-upload time point will be uploaded together. The purpose is to prevent data from being lost on the server side. And so on.

In this low-voltage scenario, the relevant upload cycle is not based on the cycle configured by the user in advance. Instead, the data uploading work is implemented based on the relevant TL and TH thresholds. It ensures that when the battery is low, in low or high temperature environments, the performance of the dry battery can be brought into full play and the normal operation of the NB-IOT device can be maintained to the greatest extent.

3. Intelligent mode: In this mode, the temperature detection circuit is in working condition. The temperature collected at each upload point is compared with TL and TH. If the temperature collected at time point t0 is lower than TL or higher than TH, the data uploading work will not be performed; if the temperature collected at time point t0 is to be uploaded, the uploading data will not be performed; tN has a temperature greater than TL or lower than TH. Once there is a relevant temperature, the work of uploading data will be performed. And upload the data at the time points that were not uploaded before. The purpose is to prevent data from being lost on the server side. And so on.

Similarly, the relevant upload period will change with different temperatures, and even a large period shift will occur. Data cannot be uploaded on time and on time. The performance of dry batteries can be brought into full play and the normal operation of NB-IOT equipment can be maintained to a maximum extent.

Since data will not be uploaded at a temperature lower than TL or higher than TH regardless of the high or low voltage of the dry battery, the performance of the dry battery will be maximized and the normal operation of the NB-IOT device can be maintained to the greatest extent.

In the above-mentioned embodiment of the present invention, a semi-intelligent mode and an intelligent mode are provided simultaneously with the normal mode. Three modes are provided to users according to the needs of relevant practical applications. Normal mode has good timeliness, but the performance of the dry battery will be lost, and the use of the device will be affected. Semi-intelligent mode performs or does not perform data uploading work under different voltage thresholds and different temperatures. The smart mode starts the low and high temperature comparison at the upload time. Thereby performing or not performing the work of uploading data. Achieve better protection and utilization of dry batteries, so that NB-IOT equipment can achieve better performance in terms of performance and power consumption.

Through this method, users can freely configure relevant working modes. In low or high temperature environments, through semi-intelligent mode or intelligent mode, the performance of the battery can be well protected, allowing NB-IOT devices to work better. Avoid relevant anomalies as much as possible.

As shown in Figure 1, an embodiment of the present invention also provides an Internet of Things device, including:

The main control module is used to obtain the parameter information of the battery of the Internet of Things device when uploading data;

The main control module uploads data through the narrowband Internet of Things NB-IOT communication module of the Internet of Things device according to the parameter information of the battery.

Optionally, the main control module is specifically configured to upload data through the NB-IOT communication module of the Internet of Things device according to the temperature of the battery; or, according to the voltage and temperature of the battery, upload data through the The NB-IOT communication module of the Internet of Things device uploads data.

Optionally, when the main control module uploads data through the NB-IOT communication module of the Internet of Things device according to the voltage and temperature of the battery, it is specifically used for:

If the voltage of the battery is higher than the first preset voltage value, upload data through the NB-IOT communication module of the Internet of Things device according to the configured cycle;

If the voltage of the battery is lower than the second preset voltage value, data is uploaded through the NB-IOT communication module of the Internet of Things device according to the temperature of the battery.

Optionally, according to the temperature of the battery, upload data through the NB-IOT communication module of the Internet of Things device, including:

If the temperature of the battery is lower than the first preset temperature value, no data is uploaded; otherwise, data is uploaded through the NB-IOT communication module of the Internet of Things device;

If the temperature of the battery is higher than the second preset temperature value, no data is uploaded; otherwise, data is uploaded through the NB-IOT communication module of the Internet of Things device.

Optionally, the main control module is also used to: if the temperature of the battery at the next upload time point is higher than the first preset temperature value or lower than the second preset temperature value, combine the data at the previous upload time point and The data at this upload time point is uploaded together through the NB-IOT communication module of the Internet of Things device.

Several dry batteries of the IoT device are connected in parallel or in series, and the relevant appropriate voltage is output to the NB-IOT module or chip and related main control work through the relevant DC-DC/LDO chip. The main control ADC (Analog-to-Digital Converter) circuit samples the voltage of the dry cell.

This embodiment of the present invention is a device corresponding to the above method. All implementation methods of the above method embodiment are applicable to the embodiment of the device. It provides semi-intelligent mode and intelligent mode at the same time as the regular mode. The semi-intelligent mode performs or does not perform data uploading at different voltage thresholds and at different temperatures. The smart mode starts the low and high temperature comparison at the upload time. Thereby performing or not performing the work of uploading data. Achieve better protection and utilization of dry batteries, so that NB-IOT equipment can achieve better performance in terms of performance and power consumption.

The above is the preferred embodiment of the present invention. It should be pointed out that for those of ordinary skill in the art, several improvements and modifications can be made without departing from the principles of the present invention. These improvements and modifications can also be made. should be regarded as the protection scope of the present invention.

Claims (4)

1. The data uploading method is characterized by being applied to the Internet of things equipment, and the method comprises the following steps:

when uploading data, parameter information of a battery of the Internet of things equipment is obtained;

uploading data through a narrow-band internet of things (NB-IOT) communication module of the internet of things device according to the parameter information of the battery;

uploading data through the narrowband internet of things NB-IOT communication module of the internet of things device according to the parameter information of the battery, wherein the method comprises the following steps:

uploading data through an NB-IOT communication module of the Internet of things equipment according to the voltage of the battery and the temperature of the battery;

according to the voltage of the battery and the temperature of the battery, uploading data through the NB-IOT communication module of the Internet of things device comprises:

if the voltage of the battery is higher than a first preset voltage value, uploading data through an NB-IOT communication module of the Internet of things equipment according to a configured period;

and if the voltage of the battery is lower than a second preset voltage value, uploading data through the NB-IOT communication module of the Internet of things equipment according to the temperature of the battery.

2. The data uploading method according to claim 1, further comprising:

if the temperature of the battery at the next uploading time point is higher than a first preset temperature value or lower than a second preset temperature value, uploading the data at the last uploading time point and the data at the current uploading time point together through the NB-IOT communication module of the Internet of things device.

3. An internet of things device, comprising:

the main control module is used for acquiring parameter information of the battery of the Internet of things equipment when uploading data;

the main control module uploads data through a narrow-band internet of things (NB-IOT) communication module of the internet of things device according to the parameter information of the battery;

the main control module is specifically configured to upload data through the NB-IOT communication module of the internet of things device according to the voltage of the battery and the temperature of the battery;

when the main control module uploads data through the NB-IOT communication module of the Internet of things equipment according to the voltage of the battery and the temperature of the battery, the main control module is specifically used for:

if the voltage of the battery is higher than a first preset voltage value, uploading data through an NB-IOT communication module of the Internet of things equipment according to a configured period;

and if the voltage of the battery is lower than a second preset voltage value, uploading data through the NB-IOT communication module of the Internet of things equipment according to the temperature of the battery.

4. The internet of things device of claim 3, wherein the master control module is further configured to: if the temperature of the battery at the next uploading time point is higher than a first preset temperature value or lower than a second preset temperature value, uploading the data at the last uploading time point and the data at the current uploading time point together through the NB-IOT communication module of the Internet of things device.