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Title:
MODULAR SYSTEM COMPRISING A PERIPHERAL FOR AN ALARM SYSTEM AND A PLURALITY OF DIFFERENT POWER-PACKS FOR THE PERIPHERAL
Document Type and Number:
WIPO Patent Application WO/2021/116028
Kind Code:
A1
Abstract:
The invention relates to a modular system comprising a peripheral (3) for an alarm system installation and a plurality of different power-packs (10) for the peripheral (3), the different power-packs comprising at least one of a battery tray (10A), a rechargeable battery pack (10B), and a mains-powered power-pack (10C), the different power-packs (10) having the same dimension and an identical power interface (28, 30), and the peripheral (3) having an accommodation (12) adapted to receive the different types of power-packs (10).

Inventors:
HACKETT NICHOLAS J (CH)
FILINESI RINALDO (CH)
ZIELINSKI MARCIN (CH)
BUTCHER DEAN ANTHONY (CH)
Application Number:
PCT/EP2020/084912
Publication Date:
June 17, 2021
Filing Date:
December 07, 2020
Export Citation:
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Assignee:
VERISURE SARL (CH)
International Classes:
G08B13/14; G06F1/16; G06F1/26; G08B29/04; H02J7/00
Foreign References:
TW201412004A2014-03-16
US20070090796A12007-04-26
US20150249353A12015-09-03
US20140207124A12014-07-24
Attorney, Agent or Firm:
PRINZ & PARTNER MBB PATENT- UND RECHTSANWÄLTE (DE)
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Claims:
Claims

1. A modular system for an alarm system installation comprising an alarm peripheral and first-type and second-type power-packs, the peripheral comprising accommodation (12) adapted to receive the first-type power-pack and further adapted to receive in place of the first-type power-pack a second-type power-pack, the peripheral comprising an electrical interface adapted to connect with each of the first-type power-pack and the second-type power-pack when installed in the peripheral, the peripheral further comprising means (32; 36) for determining whether a connected power-pack is a first-type or a second-type power-pack, the first-type power-pack being a battery power-pack and the second-type power-pack being a mains-powered power-pack (10C), wherein the circuitry required to support the power function for at least one of the power-packs is associated with that respective power-pack.

2. The modular system of claim 1 wherein the first-type and the-second type power-packs (10) have the same dimensions and identical power interfaces (28, 30),

3. The modular system of claim 1 wherein the power interface comprises electrical contacts (28, 30) for ground and power, and an identification means (32; 36).

4. The modular system of claim 2 wherein the identification means is implemented as at least one ID pin (32).

5. The modular system of claim 3 wherein the ID pin (32) is mechanically coded.

6. The modular system of claim 2 wherein the identification means is at least one GPIO contact.

7. The modular system of claim 2 wherein the identification means (36) comprises a data bus such as i2c.

8. The modular system according to any of the preceding claims wherein the peripheral (3) comprises a tamper switch (24). 9. The modular system of claim 7 wherein the tamper switch (24) cooperates with the power-pack (10).

10. The modular system of claim 7 or claim 8 wherein a latching arrangement (20) is provided for connecting the power-pack (10) to the peripheral (3), the tamper switch (24) cooperating with the latching arrangement (20).

11 . The modular system of any of the preceding claims wherein the mains- powered power-pack (10C) comprises a rechargeable battery (34).

12. The modular system of any of the preceding claims wherein the peripheral is a camera (3).

13. The modular system of any of the preceding claims wherein the first-type power-pack being is an alkaline battery pack or a lithium battery pack.

14. The modular system of any of the preceding claims wherein the first-type power-pack being is a rechargeable battery pack.

15. The modular system of claim 14 wherein the rechargeable battery pack is adapted to be connected to a solar panel.

16. The modular system of any of the preceding claims wherein the second- type power-pack further comprises a rechargeable battery.

17. A peripheral in particular to be used as part of the modular system of any of the preceding claims, having an accommodation (12) adapted to receive one of a first-type power-pack and a second-type power pack, further comprising an electrical interface adapted to connect with each of the first-type power-pack and the second-type power-pack when installed in the peripheral, the peripheral further comprising means (32; 36) for determining whether a connected power-pack is a first-type or a second-type power-pack.

18. A peripheral suitable for use in an alarm installation for protecting a home or small business, the peripheral comprising a removable power-pack, a rechargeable battery and battery charging electronics, wherein the battery and electronics are comprised in the removable power-pack.

19. A peripheral according to claim 18 wherein the peripheral is a wireless camera.

Description:
MODULAR SYSTEM COMPRISING A PERIPHERAL FOR AN ALARM SYSTEM AND A PLURALITY OF DIFFERENT POWER-PACKS FOR THE PERIPHERAL

The invention relates to peripherals which are used in an alarm system installation. The peripherals are part of an alarm installation which is used for protecting a building. The term “building” here refers to small businesses and homes. These can be houses or flats within a house.

The alarm system installation typically comprises a central unit and one or more peripherals. The central unit is typically mains-powered and serves for external communication, e.g. for sending an alarm call to an operation center. The peripherals communicate with the central unit and can, amongst other things, be sensors, cameras or communication interfaces via which a user can communicate with the central unit, e.g. to arm or disarm the alarm system installation.

For one and the same peripheral, there can be different use cases. Assuming that the peripheral is a camera, it can be used within a building to capture images or videos when activated, the camera can be installed outdoors and capture images or videos when activated, or it can be installed as a surveillance camera which is continuously active. Such different use cases require different power options. The object of the invention is to provide a peripheral which addresses the above need.

In order to solve this object, the invention in one aspect provides a modular system comprising a peripheral for an alarm system installation and a plurality of different power-packs for the peripheral. The different power-packs comprise a non-rechargeable battery pack, a rechargeable battery pack, and a mains-powered power-pack, the different power-packs having the same dimension and an identical power interface, and the peripheral having an accommodation adapted to receive the different types of power-packs. In another aspect the invention provides a peripheral suitable for use in an alarm installation for protecting a home or small business, the peripheral comprising a removable power-pack, a rechargeable battery and battery charging electronics, wherein the battery and electronics are comprised in the removable power-pack. In some embodiments the peripheral is a wireless camera.

In both aspects the invention is based on the concept of using a peripheral which does not have any energy source but is provided with an accommodation for receiving a power-pack. This allows combining the peripheral with a power- pack which is suitable for the particular use case. The peripheral may be used with a battery-based power pack. Such a battery-based power pack may use a non- rechargeable battery or batteries (or expressed differently a single-charge chemistry) such as alkaline batteries. This may be a suitable solution if the peripheral is used indoors and is not being activated frequently. If the same peripheral is used outdoors, or in a colder environment or is being activated frequently, a rechargeable battery or batteries (or expressed differently a multiple- charge chemistry) may instead be used, for example a lithium batteries. A rechargeable power pack may include circuitry and connections allowing it to interface with an external, detachable charger such as a solar charger or a mains charger. Alternatively, the peripheral may be used with a mains-powered power- pack so that “unlimited” electrical energy is available. This may be particularly advantageous where the peripheral is continuously activated, or activated for long periods at a time, as might be the case for a surveillance camera. In such a use case the mains-powered power-pack may additionally be supplemented with a battery pack, preferably a rechargeable battery pack, to power the peripheral during periods when the mains-power is not available.

The peripheral as such is the same for each use case so that fewer individual versions of one and the same device have to be manufactured, resulting in cost savings. By locating all of the power functionality in the individual power-packs, the cost of the peripheral itself, that is to say the peripheral body not including the power-packs, may be reduced.

It will be appreciated that in certain use cases charging circuitry is not required. Therefore, for this use case the overall cost of the peripheral and required battery pack may be reduced by not including such elements in the peripheral body. These costs are pushed to those power-packs which correspond to use cases which require such elements.

In this way, with all the circuitry required to support the power function located in the power-pack, the peripheral may only “see" the power/ground together with some indication of the type of power supply used (as is discussed below).

Various types of circuitry for supporting the power function of a given power- pack may be used for different use cases. In one example, a coulomb counter may be used to determine power expenditure. In some embodiments the coulomb counter may be supplemented by a thermistor to allow for the effects of temperature on remaining battery life to be taken into account. In a second example, charger and input protection functionality may be provided. In a third example, charger, input protection and regulator functionality may be provided. In a fourth example, current and/or voltage regulator functionality together with over voltage protection and/or over current protection functionality is provided. The coulomb counter and thermistor functionality of the first example may also be combined with the second, third and fourth examples.

In some embodiments each power-pack comprises the required circuitry for supporting the power function of that power-pack. In some embodiments each power-pack that comprises a rechargeable battery also comprises electronics for regulating the charging of the rechargeable battery. In some embodiments, a battery tray is used which allows the user to slide out a tray from the peripheral that contains the power-pack. This may include the batteries or the battery pack. For use cases where an always-powered (e.g. 220V) device is required, a pack of the same size as the tray that could contain a multiple-charge chemistry battery pack, integrated charger and an interface to the external supply could instead by used. Such an always-powered power-pack could be mounted on a tray as described above or used with such a tray.

Preferably, each power-pack has an identifier or identification. The identifier makes available to the peripheral the information which is required by the peripheral to determine which type of power-pack is being used. This allows the peripheral or the central unit to determine, for example, the remaining time of operation under battery power and to undertake performance related energy management activities. For doing so, it is necessary to know which power-pack is inserted, and whether the power-pack is being recharged or not. For example, if the MCN of the peripheral, that may be detachably connected to a charger, receives information from the power-pack that a charger is connected, then the peripheral may be configured to act like a mains powered device. Alternatively if the connection to the charger is removed then battery saving behaviors may be initiated. For example, where the peripheral is a camera it may take and transmit to the central unit lower resolution images than would be the case when behaving as a mains powered device.

The identifier can be implemented as at least one ID pin which cooperates with the peripheral. In one embodiment, the ID pin is mechanically coded. This allows a user to provide to the peripheral the information if alkaline batteries or rechargeable batteries are provided in the battery tray. According to an alternative embodiment, the identification means is at least one electrical contact, for example an earth. In other embodiments an EEPROM may be used to allow the type of power-pack to be identified. It is also possible that the identification means comprises a data bus such as i2c thereby allowing the type of the power-pack installed as well as other information to be made available to the peripheral.

According to some embodiments of the invention, the peripheral comprises a tamper switch. The tamper switch allows a tamper signal to be sent from the peripheral to the central unit in the event that there is an unauthorized attempt to remove the power-pack. Preferably the tamper is detected by the peripheral, as opposed to through the battery interface. In other embodiments the tamper is detected through the battery interface.

According to an embodiment, the tamper switch cooperates with the power- pack. Accordingly, a tamper signal is sent when the power-pack is removed or partially removed from the peripheral without there being a prior authorization signal.

It is also possible that a latching arrangement is provided for connecting the power-pack to the peripheral, the tamper switch cooperating with the latching arrangement. The tamper switch allows a tamper signal to be sent when there is an unauthorized attempt to unlatch the power-pack. The mains-powered power-pack can comprise a rechargeable battery so as to provide electrical power to the peripheral for some time after a mains supply has been cut off or disconnected.

In different power-packs of embodiments of the invention, different levels of communication are used between the peripheral itself and the different power- packs. In a simple non-rechargeable battery pack no communication may be needed. The peripheral MCU may be adapted to read the voltage of the power- pack and, based on the profile loaded into its code, may estimate the remaining battery life. In use cases employing a power-pack comprising a rechargeable battery pack and an external charging connection, communication is employed between the peripheral and the power-pack to inform the MCU whether at any given time it is functioning on power from the charging connection or battery power, whether the battery is charging or not, instantaneous batter level etc. Where such communication is required, it may be combined with battery pack identification to minimize the number of pins are required for the power interface.

In preferred embodiments of the invention the power-pack, when installed in the peripheral, forms part of the outer housing of the device.

The peripheral can in particular be a camera which captures images or videos when activated.

The invention will now be described with reference to the enclosed drawings. In the drawings,

Figure 1 schematically shows an alarm system installation with a peripheral,

Figure 2 schematically shows a top view of the peripheral,

Figure 3 shows the peripheral of Figure 2 with three different types of power-packs,

Figure 4 shows part of the peripheral of Figure 3 provided with a first type of power-pack installed,

Figure 5 shows a first step of removal of the power-pack from the peripheral,

Figure 6 shows a second step of removal of the power-pack from the peripheral, Figure 7 shows part of the peripheral of Figure 3 with a different type of power-pack, and

Figure 8 shows the peripheral of Figure 7 with the power-pack partly removed.

Figure 1 shows a home alarm system installation in a building 1 . The home alarm system installation comprises a central unit 2 which is typically mains- powered and serves for external communication, e.g. for sending an alarm call to an operation center. Other functionality can be implemented as well.

The alarm system installation further comprises one or more peripherals. The peripherals communicate with the central unit and can be provided with electrical energy in different manners, depending from the use case.

One example of such peripheral is a camera 3 which can capture sound via a microphone 4 and images and/or videos via a lens 5.

The electrical energy for peripheral 3 is provided by a schematically shown power-pack 10 which is received within an accommodation within peripheral 3. As is shown in Figure 3, different types of power-packs are available, which all can be installed, depending on the use case, in one and the same peripheral.

As an example, power-pack 10 can be a battery tray 10A which can receive alkaline batteries or rechargeable batteries.

As a further example, power-pack 10 can be a rechargeable battery pack to be installed in the peripheral 3.

As a further example, power-pack 10 can be a mains-powered power-pack 10C which potentially also comprises a rechargeable battery.

All different types of power-packs have (at least approximately) the same dimensions and an identical power interface, the power interface of the power- packs 10 cooperating with contacts at the peripheral for providing electric energy.

In Figures 4, 5 and 6, peripheral 3 is shown with a power-pack 10A which is a battery tray. Battery tray 10A is received within an accommodation 12 (see in particular Figure 6), with accommodation 12 being closed by a cover 18.

Cover 18 has a locking lever 20 for reliably connecting cover 18 to the housing of peripheral 3, or closing the cover 18 in relation to the housing of peripheral 3. At cover 18, a tamper tab 22 is arranged which cooperates with a tamper switch 24 provided at the peripheral. Should the tamper tab be moved in relation to the tamper switch 24, which would occur for example if the cover 18 was removed or partially withdrawn from the peripheral, without there having been a prior communication to the peripheral which authorizes removal of cover 18, a tamper signal is sent from the peripheral to the central unit. Alternatively, the tamper could be triggered where the tamper tab is rotated in relation to the tamper switch 24.

Battery tray 10A can receive a plurality of alkaline batteries 26, for example of size AA. As an alternative, rechargeable batteries of the same size can be used.

Visible in Figure 6 is further a power interface consisting of a power contact 28 and a ground contact 30, which are provided for transmitting electric power to peripheral 3.

At battery tray 10A, an identification means 32 is provided. It is here formed as a mechanical pin which can be displaced between a first and a second position. The position to the left (visible in Figure 6) indicates that alkaline batteries are used. If rechargeable batteries are used, identification means 32 is moved to the right. This allows peripheral 3 to understand, via an appropriate sensor, which type of batteries is present and to correspondingly calculate the correct remaining power supply.

If as an alternative to battery tray 10A, a rechargeable battery pack 10B is used as power-pack, the power-pack as such has the same dimensions as battery tray 10A and has the same power interface. It is the entire power-pack which is to be placed in a charger for recharging, instead of removing the individual batteries from the battery tray.

In Figures 7 and 8, a power-pack 10C is used which is a mains-powered energy supply module. It is also latched to the housing of the peripheral via locking lever 20. A charger 33 is integrated into power-pack 10C. Instead of the cable which is shown here, a socket for connecting a cable can be used as an alternative.

Power-pack 10C is here provided with some rechargeable batteries 34 which provide some backup energy to peripheral 3 in case the mains supply is interrupted for some time. In other embodiments such a mains-powered energy supply module comprises no rechargeable batteries.

Power-pack 10C is provided with two electrical contacts 36 which form an identification means, in particular an interface for a data bus such as i2c.