JP2002541640A - Consumer recorder - Google Patents

Abstract

(57) Abstract A method of determining consumer recorders and electronic devices to be consumer specific is described. The consumer recorder has a connection board and a recording board. Electronic devices having this consumer recorder are commercially available. With an electronic device to which a portable consumer recorder has been added, the portable consumer recorder allows the consumer to use the electronic device in a generally normal and intended manner. . Consumer recorders record measurements of device characteristics while the electronic device is being used by a consumer. At some point, the recorded measurements are transmitted to an analyzer to analyze the patterns used in the electronic device.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001] The present invention relates to obtaining information regarding usage characteristics of a portable electronic device.

One way to determine the usage characteristics of an electronic device is to position a person with the device in a room and observe how the person uses the device. A video camera behind a one-way mirror is used to record the observations, and the device may be used to store logging or other data to store data regarding the use of the device. It can be connected to a type measuring device.

[0003] Today, many portable devices are powered by batteries.
There are a wide variety of batteries. Devices using batteries also come in various sizes, types and functions. The mode of operation of the device is believed to affect battery life. If one or more patterns of certain forms of use can be established in such a device, the chemistry of the battery will cause the characteristics typically used to derive maximum life from the battery. Can be changed or adjusted based on the

[0004] According to one aspect of the present invention, a consumer device comprises a consumer device.
) And a mechanical arrangement (mech) added to the battery used with the consumer device
and electronic recording devices applied to measure voltage or / and current from batteries used with consumer devices.

According to another aspect of the invention, a method of determining a consumer's usage characteristics of an electronic device includes distributing the electronic device to a consumer, wherein the electronic device is a portable consumer attached to the electronic device. It has a consumer recorder, and its portable consumer recorder allows the consumer to use the electronic device in the normal state and in the usual intended manner. While the electronic device was being used by the consumer, the consumer recorder recorded measurements of the characteristics of the device and recorded the analyzer over a period of time to analyze the usage pattern of the electronic device. Transfer measured values.

[0006] One advantage of such an approach is that it minimizes the room for the testing process in consumer use of the device. Consumer recorders
Consumers who use the device in the manner that they normally use the device are unnoticed (transp
arent). This gives more accurate and realistic data that engineers and scientists can use to optimize battery chemistry.

Referring first to FIG. 1, a portable usage recording unit or recorder 10 is coupled between a battery pack 12 and a portable electronic battery operated device 14.
The battery operated device 14 may be any type of device, such as a video camera and a consumer device including a mobile phone or a wireless phone. In FIG. 1, the portable telephone is shown coupled to its battery pack 12 via a usage recording unit or recorder 10 (hereinafter "consumer recorder 10"). Consumer recorder 10 is designed to measure usage patterns of device 12 and battery 14. Consumer recorder 10 may have its own battery. The consumer recorder 10 measures voltage, current and temperature on the device 12.

The recorder used has a mechanical arrangement part (not shown) for mounting the device, for example, a mechanical arrangement part 10 a for mounting a battery. These features
Also provided on both sides of the consumer recorder 10, whereby the battery 12 can be mounted on one side of the consumer recorder 10 and the device 14 can be mounted on the other side of the consumer recorder 10. The consumer recorder 10 is made as thin as possible, so that the presence of the consumer recorder 10 is
It does not significantly hinder the use of.

[0009] The consumer recorder 10 can be mounted on various types of devices. When mounted on a mobile phone, the mobile phone may be provided to a consumer test market group to determine typical characteristics of use. Consumer recorder 10 makes measurements and provides the data to be analyzed. This data may indicate how often and how long the device has been used. By examining such a large amount of data, it is possible to arrive at usage patterns of different types of electronic devices. For example, analysis of the data can be used to determine whether the consumer has left the device continually or whether the consumer has switched the device on or off. For a mobile phone, the data could mean that the consumer talked for 5 minutes, then turned off the phone for a significant portion of the day, and so on. This data allows, for example, battery manufacturers to optimize battery chemistry characteristics of battes for a particular application based on expected usage patterns.
ries).

For example, the use of batteries in flashlights is very different from the use in mobile phones. The battery in flashlights seems to be used continuously, but the use in mobile phones is different. Due to differences in usage patterns, the battery chemistry can be optimized for different applications, or customized batteries optimized for the expected usage pattern for application to the same device Is important even in providing

Referring now to FIG. 2, the battery pack 14 of the device is connected on one side to the consumer recorder 10 and on the other side to the device 12, for example, a portable telephone. The consumer recorder 10 is connected to the battery pack 1 through the consumer recorder 10 as well as the circuit 24 for detecting and measuring voltage, temperature and current.
4 has a contact board 22 containing electrical connections for connecting to the device 12. The contact board 22 may have a detection resistor (not shown). The sensing resistor causes a current from the battery to flow through the sensing resistor and create a voltage drop that is measured to obtain a reading of the current. The sense resistor has a very low resistance to minimize the voltage drop across the resistor.

The consumer recorder 10 further includes a logging board 24.
Recording board 24 includes a microprocessor based logging system that converts analog measurements of voltage, temperature and current to digital measurements. Its microprocessor based recording system also stores the measurements. The consumer recorder 10 further includes a battery 26 so that the consumer recorder 10 supplies power to itself. The consumer recorder 10 further includes an interface. The interface is a serial interface, for example, an RS232 interface 28. When it is desired to retrieve information from the consumer's usage record, the microprocessor can download the data into the computer 29 via the interface 28 to perform a data analysis process and determine the usage pattern of the device 12. .

The recording board 24 is connected to the contact board 22 and receives an analog signal corresponding to a battery voltage, a current flowing from the battery, and a temperature. The recording board 24 is configured to detect a rechargeable battery and can measure the current into the battery during the recharge. The consumer recorder 10 has a temperature sensor for detecting the surrounding environment in which the consumer recorder 10, the battery 14, and the device 12 operate. Temperature conditions can affect battery chemistry. Recording board 2
4 samples the voltage and current to determine what state the device 12 is in. In the case of a mobile phone, the mobile phone is in "call mode",
It may be in a "standby" or "off" state. Also, although a battery may not even be attached to device 12, such a condition may also be detected.

Referring next to FIG. 3, the recording board 24 has a microcontroller 30, a real-time clock 31, an analog-to-digital converter 34, and an electrically erasable memory for recording data. Further, the microcontroller 30
A program memory 49 including a recording process 50 (see FIG. 4) is provided. The recording board 24 further has a battery 39 and a power controller 38. The microcontroller 30, the real-time clock 31, and the electrically erasable memory 36 are connected to the bus 3
2 are connected. In the present embodiment, the microcontroller 30
Has a serial interface 28 and an A / D converter. A / D converter 3
4 A / D interface, eg detectors for temperature T, voltage V and current I
It is coupled to a signal conditioning circuit 33 which couples to a converter. The recording board 24
AZ85636-0160 BS commercially available from Scott Edwards Electronics of Sierra Vista
2 You may change to a data recording board called Data Collection Proto Board.

[0015] The microcontroller controls the recording of data through the analog-to-digital converter. The microcontroller calculates the voltage and current from the battery,
Save the current time and determine the ambient temperature. The microcontroller records this information in a data store 36, for example, an electrically erasable memory. The microcontroller also controls downloading of the recorded data, for example, transferring the data to a personal computer via the interface 28.

To conserve memory space, the microcontroller can sample, measure, and calculate parameters at predetermined times based on time, for example, every 5 seconds. The microcontroller can record voltage, current and temperature. Another data recording method that further saves memory is to perform events based on sampling. The microcontroller determines what mode the device is in based on the delivery of the event. If the microcontroller determines that an event has occurred,
The microcontroller records when the event occurred, the type of event, such as a change from "off" mode to "standby", and the like. The microcontroller records such information as well as voltage, current, time and temperature.
The consumer recorder 10 creates a separate record with time stamps and mode stamps. This allows a smaller capacity memory to be placed on the recording board 24 that requires less power and physical space, while allowing recording for an extended period of time.

Referring now to FIG. 4, a process 50 is shown, for example, stored in the program memory 49 for controlling the operation of the microcontroller. The initialization process 52 is passed by increasing the power consumption of the microcontroller 30. The initialization process 52 can execute various predetermined operations such as erasing a record. After the initialization process 52, the software enters a menu mode 54 that waits for a command sent from the interface. The process 50 operates based on the command received from the interface 42 and is independent of a menu operated according to the type of command.
This allows the microcontroller to operate the recording operation, set a real-time clock, and perform functions such as calibrating electronics.

The calibration mode 60 is used to set reference voltages, adjust circuits, set variables 62, for example, how many samples to take, and the like. This allows the same basic recording algorithm to be used for different applications, taking into account changes based on the application.

In the recording mode 66, when no data is recorded, the microcontroller enters a sleep state, that is, a low power consumption mode. Interface 28
The microcontroller wakes up from the low power consumption mode when it detects a new command from or determines it is time to perform a measurement. That is, the microcontroller, based on a time guide, for example, every 5 seconds or 1
It fires every 0 seconds to detect a new command or perform a measurement and switches on periodically. If there is no command, the microcontroller itself switches off. If already in the sampling mode, it samples the values in the analog-to-digital converter to obtain data to measure the current and voltage of the device, and at 66b the device, eg, video camera, operates differently. It is determined whether or not the mode has been set. The microcontroller measures the voltage through the battery and the voltage through a sense resistor that provides a value for the current.

The microcontroller can determine from the two measurements whether the device 12 is in the same mode (66c). If so, the microcontroller returns to the sleep state, ie, the initial recording mode state 66
Return to (66a). If it is the new mode (66e), the microcontroller determines the new mode based on some stored parameters (66e).
66b). The microcontroller creates a record specifying the new mode, voltage, current, time and temperature (66f) and stores it in memory at 66g where the record is made.

The portion of the data loaded during calibration and setup is based on thresholds and criteria (that can be used by the recording software to determine if a different mode has been entered).
level). Some mobile phones have a very large amount of noisy current patterns, so the consumer recorder samples many times to determine which mode the device 12 is in, and then samples those samples. This is desirable because the values must be averaged.

The process 50 also includes a download mode 70. The download mode is set via an instruction from the interface 28. Thereby, the consumer recorder 1
No. 0 can download all data records in the memory 36 to an analysis device such as the computer 29 (see FIG. 3). Thus, in the event handling process, when the microcontroller samples the voltage, current and temperature and determines the mode, the microcontroller stores the information in the memory 36 if the mode has changed. If the mode has not changed, the microcontroller returns to the sleep state and continues its loop until it receives a command from the interface 28, eg, an RS232 type interface, to return to the menu mode. In the event operating mode, only the microcontroller causes information to be stored in memory and creates a record when the device changes modes. Alternatively, the recording may be performed at predetermined intervals, for example, time-based sampling (time
-based sampling).

Thus, the microcontroller records at time intervals, ie, with time-based sampling, or simply when information changes, ie, with event-based sampling. May be set as follows. Time-based sampling is used to obtain some initial data, and once the capabilities of a particular device are understood, i.e., what averages and thresholds are needed, the microcontroller can generate an event. May be switched to sampling based on

Other measurements may be added to the voltage, current and temperature measurements. For example, the humidity may be measured by connecting a humidity sensor, or the operation may be measured by connecting an operation sensor to the signal adjustment circuit 33. For some types of devices, it may be useful to determine whether acceleration has occurred in the device. Camcorder manufacturers have identified a number of steadying features within the camcorder.
You will want to know how long a consumer can have a video camera fixed to design a). A consideration in designing a consumer recorder is to maximize the battery life of the consumer recorder. In the case of a video camera, the video camera may be rarely used. There can be a very long time interval between downloading the data and using the consumer recorder. If the data logger runs regularly and continuously every 5 seconds, it will ensure that more power flows from the battery. Therefore, as one method, for example, a tilt switch (tilt sw
itch) (more specifically, by detecting when the video camera is activated by employing a mercury switch or a pendulum type switch), and if there is no event, Then, the consumer recorder returns to the power save mode.

Referring next to FIG. 5, a consumer recorder 10 ′ is shown as another embodiment. In this embodiment of the recorder 10 ', the battery 12'
4 'in the battery storage section 14a. The recorder 10 'comprises a contact board 22' sandwiched between a pair of battery terminals 15a, 15b and the electronics (not shown) of the device 14 '. The recorder 10 'further comprises a recording board 24 incorporated in or added to the device 14'.

Although the present invention has been described with reference to the detailed description herein, the foregoing description is not intended to limit the scope of the invention, which is illustrated and defined by the claims. Other features, advantages, and modifications are within the scope of the claims.

[Brief description of the drawings]

FIG. 1 is a life-size schematic diagram of an electronic battery operated device including a consumer recorder.

FIG. 2 is a system block diagram of a consumer recorder.

FIG. 3 is a block diagram of a recording circuit used in the consumer recorder of FIG. 2;

FIG. 4 is a flowchart of a software process for operating the recording circuit of FIG. 3;

FIG. 5 is a schematic diagram of an alternative arrangement of a consumer recorder.

──────────────────────────────────────────────────続 き Continuation of front page (81) Designated country EP (AT, BE, CH, CY, DE, DK, ES, FI, FR, GB, GR, IE, IT, LU, MC, NL, PT, SE ), OA (BF, BJ, CF, CG, CI, CM, GA, GN, GW, ML, MR, NE, SN, TD, TG), AP (GH, GM, KE, LS, MW, SD, SL, SZ, TZ, UG, ZW), EA (AM, AZ, BY, KG, KZ, MD, RU, TJ, TM), AE, AG, AL, AM, AT, AU, AZ, BA, BB, BG, BR, BY, CA, CH, CN, CR, CU, CZ, DE, DK, DM, DZ, EE, ES, FI, GB, GD, GE, GH, GM, HR , HU, ID, IL, IN, IS, JP, KE, KG, KP, KR, KZ, LC, LK, LR, LS, LT, LU, LV, MA, MD, MG, MK, MN, MW, MX, NO, NZ, PL, PT, RO, RU, SD, SE, SG, SI, SK, SL, TJ, TM, TR, TT, TZ, UA, UG, US, UZ, VN, YU, ZA , ZW (72) Inventor Paul, W.W. Dandrea, Jr., Quincy, Mass., USA, Franklin, Street, 200 (72) Inventor David, N.M. Klein Franklin, Dover, Mass., USA 50 (72) Inventor Orwin, H. Tyler Massachusetts, USA, Welsley, Hills, Hawthorne, Road, 25F term (reference) 2G016 CA00 CB07 CB22 CB23 CB24 CC27 CC28 CE00 5H030 AA06 AS11 AS18 BB21 FF21 FF42 FF44 FF52 5H040 AA23 AA39 AS12 AS17 DD06 DD09

Claims (23)

[Claims] 1. A base including a consumer device and a mechanical arrangement such as to be attached to a battery used with the consumer device; and a voltage and / or current from the battery used with the consumer device. An electronic recording device adapted to measure. 2. The method according to claim 1, wherein the mechanical arrangement is disposed in a housing mounted between the consumer device and the battery used with the consumer device. Consumer equipment. 3. The consumer device according to claim 2, wherein said housing comprises said electronic recording device. 4. The contact arrangement arranged to sample current and voltage from a battery located in a battery compartment of the consumer device.
The consumer device according to claim 1, wherein the device is a board. 5. The consumer device according to claim 3, wherein the housing is adapted to be attached to a mobile phone. 6. A mechanically arranged portion, wherein: a first mechanically arranged portion connected to a back side of the portable telephone; and the base is arranged between the portablely arranged telephone and the battery; And a second mechanical arrangement for attaching to the consumer device. 7. The recording device according to claim 1, further comprising: a variable memory; and a microcontroller for calculating measured values of voltage and current from the battery and storing the measured values in the variable memory. Item 2. A consumer device according to item 1. 8. The consumer of claim 7, wherein the recording device further comprises a real-time clock, wherein the microcontroller stores a current time and assigns the current time to the measurement. Equipment. 9. The consumer device according to claim 7, wherein the microcontroller further controls download of the stored data to an analyzer. 10. The consumer device of claim 7, wherein the microcontroller performs time-based sampling to measure and calculate the current and voltage values. 11. The consumer device according to claim 7, wherein the microcontroller performs event-based sampling. 12. The consumer of claim 11, wherein the microcontroller determines a mode of operation of the device based on the received event to perform event-based sampling. Equipment. 13. The consumer device according to claim 12, wherein the microcontroller records the type of the event and the voltage, current and / or time. 14. The consumer device according to claim 12, wherein the microcontroller creates a separate record having a time stamp and a mode stamp. 15. The consumer device of claim 12, wherein the microcontroller creates a separate record having a time stamp and a mode stamp and a measured metric of the battery. 16. The consumer device according to claim 12, wherein the recording device further comprises a battery that supplies power to the consumer device. 17. The portable device, wherein the base is adapted to be attached to a portable telephone, and the base is a first mechanical arrangement connected to a back side of the portable telephone, and the base is the portable type. A second mechanical arrangement for attaching to the battery so as to be arranged between a telephone and the battery, the recording device comprising: an electric variable memory; a real-time clock; a temperature sensor; An analog-to-digital converter for sampling values from the real-time clock, the temperature sensor and the battery pack; and calculating voltage and current measurements from the battery, along with time and temperature values in the memory. The consumer device according to claim 1, further comprising a microcontroller for storing the measurement. 18. Distributing an electronic device to a consumer, the electronic device having a portable consumer recorder attached to the electronic device, wherein the portable consumer recorder is typically used by a consumer. Enabling the electronic device to be used in a state by a common intended method; and recording measurements of characteristics of the device while the electronic device is being used by the consumer. Transferring the recorded measurements to an analyzer during a time interval to analyze a usage pattern of the electronic device. A method of determining a consumer's usage characteristic for an electronic device, comprising: 19. The electronic device is a mobile phone, wherein the consumer device is mounted between the mobile phone and a battery pack used by the mobile phone. 20. A method of determining usage characteristics for a consumer electronic device according to claim 18. 20. Distributing the electronic device to a consumer includes distributing a plurality of the electronic devices to a consumer, each of the electronic devices being a configurable consumer recorder and a battery attached to the electronic device. 20. The method of claim 18, further comprising the step of: determining a usage characteristic for a consumer electronic device. 21. The consumer electronic device of claim 20, further comprising determining a current flowing out of a battery pack and a voltage of the battery pack while using the electronic device. A method of determining usage characteristics for a device. 22. The characteristic of claim 21, wherein the step of recording the measured value includes recording a time stamp of the recorded voltage and current values. How to decide. 23. The method of claim 23, further comprising: determining a mode of operation of the electronic device; and recording a mode stamp and a time stamp of the recorded measurements of voltage and current, respectively. Item 22. A method of determining a usage characteristic of a consumer electronic device according to Item 21.