An anti-theft display card is provided, including: a main body, having at least one sleeved structure protruding thereon, the at least one sleeved structure having a through slot open on a free end thereof and forming two restricting walls spacingly, a side of the main body opposite to the through slot having at least one through hole communicating with the through slot, a direction in which the two restricting walls face each other defining a variation direction; at least one restricting member, each said restricting member having a connecting portion connected to the main body and at least one abutting portion, each said abutting portion being inserted into one said through slot of the at least one sleeved structure through one of the through holes to restrict the two restricting walls to move relative to each other along the variation direction.

An anti-theft display card is provided, including: a main body, having at least one sleeved structure protruding thereon, the at least one sleeved structure having a through slot open on a free end thereof and forming two restricting walls spacingly, a side of the main body opposite to the through slot having at least one through hole communicating with the through slot, a direction in which the two restricting walls face each other defining a variation direction; at least one restricting member, each said restricting member having a connecting portion connected to the main body and at least one abutting portion, each said abutting portion being inserted into one said through slot of the at least one sleeved structure through one of the through holes to restrict the two restricting walls to move relative to each other along the variation direction.

A carrier tape (300) with a continuous channel (310) is proposed instead of the individual separate embossed pockets (110) prevalent in conventional carrier tapes (100). The continuous channel (310) reduces or even eliminates small bridge problem typically associated with the conventional carrier tapes (100). The proposed carrier tape (300) can include dividers (330) and cutouts (340) to accommodate the devices (205) with minimum pitch without sacrificing corner relief. A cover tape (450) can be included to seal the devices (205) below the top surface of the devices (205). Further, the floor (316) of the continuous channel (310) can be lined with an adhesive (560).

A carrier tape (300) with a continuous channel (310) is proposed instead of the individual separate embossed pockets (110) prevalent in conventional carrier tapes (100). The continuous channel (310) reduces or even eliminates small bridge problem typically associated with the conventional carrier tapes (100). The proposed carrier tape (300) can include dividers (330) and cutouts (340) to accommodate the devices (205) with minimum pitch without sacrificing corner relief. A cover tape (450) can be included to seal the devices (205) below the top surface of the devices (205). Further, the floor (316) of the continuous channel (310) can be lined with an adhesive (560).

One example discloses a component carrier, including: a cavity; wherein the cavity includes a set of cavity registration features configured to engage with a set of component registration features on a component; and wherein the cavity registration features are within the cavity.

One example discloses a component carrier, including: a cavity; wherein the cavity includes a set of cavity registration features configured to engage with a set of component registration features on a component; and wherein the cavity registration features are within the cavity.

A carrier tape is provided from which LEDs can be easily picked up. A carrier tape for accommodating an LED includes a sheet defining recessed embossed portions that can accommodate the LED. The embossed portion is formed to accommodate the LED which includes a light emitting portion having light-transmissive resin and arranged on its lateral surface as viewed in plan view. The embossed portion includes a protruding part that is arranged on one of the interior surfaces of the recessed embossed portion and can face the light emitting portion of the LED. Depressed parts are provided on the both sides of the protruding part so that the depressed surfaces can be spaced away from the LED when the LED is accommodated in the embossed portion. The width of the protruding part is smaller than the width of the light emitting portion of the LED as viewed in plan view.

A carrier tape is provided from which LEDs can be easily picked up. A carrier tape for accommodating an LED includes a sheet defining recessed embossed portions that can accommodate the LED. The embossed portion is formed to accommodate the LED which includes a light emitting portion having light-transmissive resin and arranged on its lateral surface as viewed in plan view. The embossed portion includes a protruding part that is arranged on one of the interior surfaces of the recessed embossed portion and can face the light emitting portion of the LED. Depressed parts are provided on the both sides of the protruding part so that the depressed surfaces can be spaced away from the LED when the LED is accommodated in the embossed portion. The width of the protruding part is smaller than the width of the light emitting portion of the LED as viewed in plan view.

In an embodiment, a carrier tape 10 for storing electronic components includes a band-shaped tape body 11 and storage recesses 12a, each having length L1, width W1, and depth D1 sufficient to store an electronic component EC, which storage recesses are provided in the tape body 11 at equal intervals in the length direction. On one width-direction side of the storage recesses 12a in the tape body 11, guide recesses 12b are provided in such a way that their depth D2 increases from the top face of the tape body 11 toward the one width-direction side face of the storage recess 12b, and that the guide recesses 12b themselves continue to the storage recesses 12a. The carrier tape is suited for the method of inserting electronic components into the storage recesses in the carrier tape from the side.

In an embodiment, a carrier tape 10 for storing electronic components includes a band-shaped tape body 11 and storage recesses 12a, each having length L1, width W1, and depth D1 sufficient to store an electronic component EC, which storage recesses are provided in the tape body 11 at equal intervals in the length direction. On one width-direction side of the storage recesses 12a in the tape body 11, guide recesses 12b are provided in such a way that their depth D2 increases from the top face of the tape body 11 toward the one width-direction side face of the storage recess 12b, and that the guide recesses 12b themselves continue to the storage recesses 12a. The carrier tape is suited for the method of inserting electronic components into the storage recesses in the carrier tape from the side.