A security device for a battery pack includes a cap, which covers at least a portion of a slide mechanism of a slide battery pack, and a strap. The cap includes a first collar disposed around a first opening and a second collar disposed around a second opening, with the first collar and the second collar aligned along a longitudinal axis of the slide battery pack. The strap matches a contour of the slide battery pack and includes a first projection and a second projection. The strap is positioned along the longitudinal axis of the slide battery pack and the cap is positioned over the strap with the first projection inserted through the first opening and the first collar and the second projection inserted through the second opening and the second collar to secure the cap to the strap and to the slide battery pack.

Systems and methods for a tamper-evident cargo container seal bolt lock are disclosed herein. The device can include a receiving member, a conductive bolt member adapted to be snap-locked into the receiving member, and a plastic encapsulant which tethers the bolt member to the receiving member. The encapsulant can contain an electrically conductive medium, such as a wire, which runs from the receiving member to the second end of the bolt. A sensory circuit disposed within the receiving member can be configured to sense whether the circuit has been interrupted (e.g., if the bolt has been cut). In the event of an interruption, the circuit can record the present time and/or date in memory. An RFID transponder disposed within the encapsulant or the receiving member can then transmit the recorded date/time to an RFID interrogator if a dispute subsequently arises as to when the lock had been broken.

A smart label including a communication device and a continuity sensor, and methods of manufacturing and using the same, are disclosed. The smart label includes a substrate having a preferential tearing direction, an antenna or display, an integrated circuit, and a sensing line configured to sense or determine a continuity state of a container on which the communication device is placed or to which the communication device is fixed or adhered. The sensing line has at least one section oriented perpendicularly or substantially perpendicularly to the preferential tearing direction of the substrate. The antenna is configured to receive a first wireless signal and/or transmit or broadcast a second wireless signal. The communication device (or integrated circuit) may further include a receiver and/or transmitter, in which case the integrated circuit may be configured to process the first wireless signal and/or information therefrom and/or generate the second wireless signal and/or information therefor. Alternatively, the smart label may include a display (and optionally a battery) instead of the antenna. The display may be configured to display the continuity state of the container.

Systems and methods for a tamper-evident cargo container seal bolt lock are disclosed herein. The device can include a bolt member having a conductive medium running the axial length of the bolt, and a receiving member for locking the bolt into place. A battery-driven sensory circuit including a memory means, a processor, and a timing circuit can be disposed within the receiving member such that a continuous circuit is formed from one circuit pin over the conductive medium through the length of the bolt and back to a second pin. The sensory circuit is configured to sense whether the circuit has been interrupted (e.g., if the bolt has been cut). In the event of an interruption, the circuit can record the time and/or date in memory. This information can then be transmitted to an RFID reader/interrogator if a dispute arises as to when the lock had been broken.

A security device for a battery pack includes a cap, which covers at least a portion of a slide mechanism of a slide battery pack, and a strap. The cap includes a first collar disposed around a first opening and a second collar disposed around a second opening, with the first collar and the second collar aligned along a longitudinal axis of the slide battery pack. The strap matches a contour of the slide battery pack and includes a first projection and a second projection. The strap is positioned along the longitudinal axis of the slide battery pack and the cap is positioned over the strap with the first projection inserted through the first opening and the first collar and the second projection inserted through the second opening and the second collar to secure the cap to the strap and to the slide battery pack.

A method for sealing and checking a product for manipulation with a seal and to a corresponding seal, wherein the seal comprises an antenna, a chip, a measuring element, and a measurement device. For sealing and checking the product for manipulation, a step of arranging the seal at the product to be sealed is carried out, wherein the product is mechanically sealed. The seal receives a check query by means of contactless data transmission from a read-write device, determines the physical property of the measuring element as a first measurement value by the seal, prepares a response to the query by the chip, sends by means of contactless transmission the response to the read-write device, the response of the chip relating to the first measurement value, and compares the first measurement value with a reference value.

A tamper-proof bolt-seal incorporating a unique identification tamper detection sensor that cannot be restored or duplicated after the bolt. The sensor employs a resistive sensor wire embedded in the bolt. The resistive sensor wire has a randomized length to enable a unique resistive value for that sensor. The resistive value of the sensor is combined with an electronic identification code to create the unique seal identification for the tamper detection sensor, therefore giving the bolt a seal identification that is unique and that cannot be restored or duplicated.

A container seal. The container seal includes a global positioning system, a transmitter, a processor and a power source. The processor is electrically coupled to the global positioning system and the transmitter. The power source is operable to provide power to the global positioning system, the transmitter and the processor. The present invention further includes a cord coupled to the housing. The cord includes an electrical wiring forming a circuit. The cord further includes a first mating connector that connects to a second mating connector. When the first mating connector and the second mating connector are connected, the circuit is complete and the power source provides power to the global positioning system, the transmitter and the processor.

Systems and methods can secure freight container seals using electronic sensors. A hardened sensor clamp housing can include one or more sensing portals. The sensor clamp housing can receive a bolt seal through each of the sensing portals. One or more seal sensors may be positioned proximate to the sensing portals to sense a physical characteristic of the inserted bolt seal. This characteristic may be electrical, optical, magnetic, or so forth. The seal sensors can generate an electrical signal associated with cutting or tampering with the inserted bolt seal. The electrical signal can be coupled to a sensor clamp module operable to determine a tamper state of the bolt seal in response to the associated electrical signal. The determined tamper state can be communicated via a sensor clamp wireless module to a container controller or communications gateway.

A tamper-proof bolt-seal incorporating a unique identification tamper detection sensor that cannot be restored or duplicated after the bolt. The sensor employs a resistive sensor wire embedded in the bolt. The resistive sensor wire has a randomized length to enable a unique resistive value for that sensor. The resistive value of the sensor is combined with an electronic identification code to create the unique seal identification for the tamper detection sensor, therefore giving the bolt a seal identification that is unique and that cannot be restored or duplicated.