Abstract: The antenna of an RFID tag or label is disconnected from the balance of the RFID chip by means of a series switch activated in response to a logic command, CLOAK, generated by the RFID chip. Activation of the switch disconnects the antenna of the RFID tag for the remainder of the RFID chip and effects a high impedance resistance across the antenna terminals. An RC circuit is charged by activation of the CLOAK signal and thereafter discharges during a predetermined RC time period as determined by a high impedance series antifuse leakage transistor. The antenna is thus disconnected for a time sufficient to allow the remaining RFID tags in an RF interrogation field to be identified. Meanwhile, during the disconnection of the antenna from the RFID chip and its loading causes its effective absorption and scattering aperture to be reduced near zero so as to electromagnetically remove the RFID tag from the zone of interrogation during the predetermined time period.

Abstract: A novel translator for translating linear logic signal levels to TTL-compatible levels in an integrated logic device having an I/O section including a mix of ECL and TTL circuit. The translator includes a resistive circuit connected to a current mirror and a linear buffer circuit connected between the resistive circuit and current mirror. The linear buffer responds to a linear logic signal by switching a current into and out of a portion of the resistive circuit which is added to or subtracted from the current mirror current flowing through the resistive network. The resulting variable current causes the resistive network to produce a TTL-compatible control voltage signal which drives a TTL buffer, causing it to produce standard TTL signals in response to linear logic signals applied to the linear buffer.