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| R EM MICROELECTRONIC - MARIN SA EM4102 Read Only Contactless Identification Device Description The EM4102 (previously named H4102) is a CMOS integrated circuit for use in electronic Read Only RF Transponders. The circuit is powered by an external coil placed in an electromagnetic field, and gets its master clock from the same field via one of the coil terminals. By turning on and off the modulation current, the chip will send back the 64 bits of information contained in a factor programmed memory array. The programming of the chip is performed by laser fusing of polysilicon links in order to store a unique code on each chip. The EM4102 has several metal options which are used to define the code type and data rate. Data rates of 64, 32 and 16 periods of carrier frequency per data bit are available. Data can be coded as Manchester, Biphase or PSK. Due to low power consumption of the logic core, no supply buffer capacitor is required. Only an external coil is needed to obtain the chip function. A parallel resonance capacitor of 78 pF is also integrated. Features 64 bit memory array laser programmable Several options of data rate and coding available On chip resonance capacitor On chip supply buffer capacitor On chip voltage limiter Full wave rectifier on chip Large modulation depth due to a low impedance modulation device Operating frequency 100 - 150 kHz Very small chip size convenient for implantation Very low power consumption Applications Animal implantable transponder Animal ear tag Industrial transponder Typical Operating Configuration Pin Assignment Coil1 EM4102 Coil2 L: typical 20.8mH for fo = 125kHz COIL1 COIL2 Fig. 1 VSS EM4102 VDD COIL2 COIL1 Coil terminal / Clock input Coil terminal Fig. 2 Copyright (c) 2005, EM Microelectronic-Marin SA 1 www.emmicroelectronic.com R EM4102 Absolute Maximum Ratings Parameter Maximum DC Current forced on COIL1 & COIL2 Power Supply Storage Temp. Die form Storage Temp. PCB form Electrostatic discharge maximum to MIL-STD-883C method 3015 Symbol ICOIL Conditions 30mA Handling Procedures This device has built-in protection against high static voltages or electric fields; however, anti-static precautions must be taken as for any other CMOS component. Unless otherwise specified, proper operation can only occur when all terminal voltages are kept within the voltage range. Unused inputs must always be tied to a defined logic voltage level. VDD Tstore Tstore VESD -0.3 to 7.5V -55 to +200C -55 to +125C 2000V Operating Conditions Parameter Operating Temp. Maximum Coil Current Symbol Min -40 Top ICOIL Vcoil fcoil -10 3 100 14* 150 Typ Max Units +85 C 10 mA Vpp kHz Stresses above these listed maximum ratings may cause permanent damages to the device. Exposure beyond specified operating conditions may affect device reliability or cause malfunction. AC Voltage on Coil Supply Frequency *) The AC Voltage on Coil is limited by the on chip voltage limitation circuitry. This is according to the parameter Icoil in the absolute maximum ratings. System Principle Tranceiver Transponder Coil1 Oscillator Antenna Driver EM4102 Coil2 Filter and Gain Demodulator Data decoder Data received from transponder Signal on coils Transponder coil Transeiver coil RF Carrier Data Fig. 3 Copyright (c) 2005, EM Microelectronic-Marin SA 2 www.emmicroelectronic.com R EM4102 Electrical Characteristics VDD = 1.5V, VSS = 0V, fC1 = 134kHz square wave, Ta = 25C VC1 = 1.0V with positive peak at VDD and negative peak at VDD -1V unless otherwise specified Parameter Supply Voltage Rectified Supply Voltage Coil1 - Coil2 Capacitance Power Supply Capacitor Manchester and biphase versions Supply Current C2 pad Modulator ON voltage drop PSK version Supply Current C2 pad Modulator ON voltage drop Note 1) Note 2) Symbol Test Conditions VDD VDDREC Cres Csup VCOIL1 - VCOIL2 = 2.8 VDC Modulator switch = "ON" Vcoil=100mVRMS f=10kHz Min. 1.5 1.5 Typ. Max. 1) Units V V 78 2) 125 pF pF IDD VONC2 VDD=5.0V IVDDC2=1mA with ref. to VDD 150 0.6 220 1.5 280 A mV IDDPSK VONC2PSK VDD=5.0V IVDDC2=100A with ref. to VDD 500 0.9 650 2.0 800 A mV The maximum voltage is defined by forcing 10mA on COIL1 - COIL2 The tolerance of the resonant capacitor is 15% over the whole production. On a wafer basis, the tolerance is 2% Timing Characteristics VDD = 1.5V, VSS = 0V, fcoil = 134kHz square wave, Ta = 25C VC1 = 1.0V with positive peak at VDD and negative peak at VDD -1V unless otherwise specified Timings are derived from the field frequency and are specified as a number of RF periods. Parameter Read Bit Period Symbol Trdb Test Conditions depending on option Value 64, 32, 16 Units RF periods Timing Waveforms TOC COIL1 64, 32 or 16 TOC, depending on option Serial Data Out BIT n BIT n+1 BIT n+2 Fig. 4 Copyright (c) 2005, EM Microelectronic-Marin SA 3 www.emmicroelectronic.com R EM4102 Block Diagram CLOCK EXTRACTOR COIL1 VDD AC1 Logic Clock Cress + FULL WAVE RECTIFIER AC2 - Csup SEQUENCER MEMORY ARRAY COIL2 VSS Serial Data Out DATA MODULATOR DATA ENCODER Modulation Control Fig. 5 Functional Description General The EM4102 is supplied by means of an electromagnetic field induced on the attached coil. The AC voltage is rectified in order to provide a DC internal supply voltage. When the last bit is sent, the chip will continue with the first bit until the power goes off. Full Wave Rectifier The AC input induced in the external coil by an incident magnetic field is rectified by a Graetz bridge. The bridge will limit the internal DC voltage to avoid malfunction in strong fields. Clock Extractor One of the coil terminals (COIL1) is used to generate the master clock for the logic function. The output of the clock extractor drives a sequencer. Sequencer The sequencer provides all necessary signals to address the memory array and to encode the serial data out. Three mask programmed encoding versions of logic are available. These three encoding types are Manchester, biphase and PSK. The bit rate for the first and the second type can be 64 or 32 periods of the field frequency. For the PSK version, the bit rate is 16. The sequencer receives its clock from the COIL1 clock extractor and generates every internal signal controlling the memory and the data encoder logic. Data Modulator The data modulator is controlled by the signal Modulation Control in order to induce a high current in the coil. The coil 2 transistor drives this high current. This will affect the magnetic field according to the data stored in the memory array. The EM4102 contains 64 bits divided in five groups of information. 9 bits are used for the header, 10 row parity bits (P0-P9), 4 column parity bits (PC0-PC3), 40 data bits (D00-D93), and 1 stop bit set to logic 0. 1 1 1 8 version bits or customer ID 32 data bits 1 1 1 D00 D01 D10 D11 D20 D21 D30 D31 D40 D41 D50 D51 D60 D61 D70 D71 D80 D81 D90 D91 PC0 PC1 1 D02 D12 D22 D32 D42 D52 D62 D72 D82 D92 PC2 1 D03 D13 D23 D33 D43 D53 D63 D73 D83 D93 PC3 1 P0 P1 P2 P3 P4 P5 P6 P7 P8 P9 S0 9 header bits 10 line parity bits 4 column parity bits The header is composed of the 9 first bits which are all programmed to "1". Due to the data and parity organisation, this sequence cannot be reproduced in the data string. The header is followed by 10 groups of 4 data bits allowing 100 billion combinations and 1 even row parity bit. Then, the last group consists of 4 event column parity bits without row parity bit. S0 is a stop bit which is written to "0" Bits D00 to D03 and bits D10 to D13 are customer specific identification. These 64 bits are outputted serially in order to control the modulator. When the 64 bits data string is outputted, the output sequence is repeated continuously until power goes off. Memory Array for Manchester & Bi-Phase encoding ICs Copyright (c) 2005, EM Microelectronic-Marin SA 4 www.emmicroelectronic.com R EM4102 Memory Array for PSK encoding ICs The PSK coded IC's are programmed with odd parity for P0 and P1 and always with a logic zero. The parity bits from P2 to P9 are even. The column parity PC0 to PC3 are calculated including the version bits and are even parity bits. Code Description Manchester There is always a transition from ON to OFF or from OFF to ON in the middle of bit period. At the transition from logic bit "1" to logic bit "0" or logic bit "0" to logic bit "1" the phase change. Value high of data stream presented below modulator switch OFF, low represents switch ON (see Fig. 6). Biphase Code At the beginning of each bit, a transition will occur. A logic bit "1" will keep its state for the whole bit duration and a logic bit "0" will show a transition in the middle of the bit duration (see Fig. 7). PSK Code Modulation switch goes ON and OFF alternately every period of carrier frequency. When a phase shift occurs, a logical "0" is read from the memory. If no shift phase occurs after a data rate cycle, a logical "1" is read (see Fig. 8). Manchester Code Binary data Memory output Modulator control X 1 1 1 1 1 1 1 1 1 0 1 0 1 0 0 0 1 1 0 Modulation control "low" means high current Fig. 6 Biphase Code 0 1 1 0 1 0 0 1 Binary data Memory output Modulator control Modulation control "low" means high current Fig. 7 PSK Code Serial Data Out COIL1 Modulator control "0" ON SERIAL OUT "1" ON SERIAL OUT Modulation control "low" means high current Fig. 8 Copyright (c) 2005, EM Microelectronic-Marin SA 5 www.emmicroelectronic.com R EM4102 Pad Description Pad 1 2 3 4 Name COIL2 COIL1 VDD VSS Function Coil terminal 2 / data output Coil terminal 1 / clock input Positive internal supply voltage Negative internal supply voltage 1 4 2 3 CHIP Dimensions EM4102 110 661 1295 717 734 415 248 523 Y 1016 X Vss, Vdd pad size : 76 X 76 C1, C2 pad size : 200 X 600 All dimensions in m Fig. 9 Copyright (c) 2005, EM Microelectronic-Marin SA 6 www.emmicroelectronic.com R EM4102 Ordering Information Die Form EM4102 A6 WS 11 E - %%% Version: A6 = Manchester, 64 clocks per bit A5 = Manchester, 32 clocks per bit B6 = Bi-Phase, 64 clocks per bit B5 = Bi-Phase, 32 clocks per bit C4 = PSK, 16 clocks per bit Die form: WW = Wafer WS = Sawn Wafer/Frame WT = Sticky Tape WP = Waffle Pack (note 1) Customer Version: %%% = only for custom specific version Bumping: " " (blank) = no bumps E = with Gold Bumps Thickness: 7 = 7 mils (178um) 11 = 11 mils (280um) This chart shows general offering; for detailed Part Number to order, please see the table "Standard Versions" below. Remarks: * For ordering please use table of "Standard Version" table below. * For specifications of Delivery Form, including gold bumps, tape and bulk, as well as possible other delivery form or packages, please contact EM Microelectronic-Marin S.A. Sales office. * Note 1: This is a non-standard package. Please contact EM Microelectronic-Marin S.A Sales office for availability. Standard Versions: The versions below are considered standards and should be readily available. For other versions or other delivery form, please contact EM Microelectronic-Marin S.A. Please make sure to give complete part number when ordering, without spacing. Part Number EM4102A6WP11E EM4102A6WS11E EM4102A6WT11E EM4102A6WW11E EM4102XXYYY-%%% Bit coding Manchester Manchester Manchester Manchester custom Cycle/bit 64 64 64 64 custom Card / Die Form Die in waffle pack, 11 mils Sawn wafer/Frame, 11 mils Die on sticky tape, 11 mils Unsawn wafer, 11 mils custom Delivery Form / bumping with gold bumps with gold bumps with gold bumps with gold bumps custom Product Support Check our Web Site under Products/RF Identification section. Questions can be sent to info@emmicroelectronic.com EM Microelectronic-Marin SA (EM) makes no warranty for the use of its products, other than those expressly contained in the Company's standard warranty which is detailed in EM's General Terms of Sale located on the Company's web site. EM assumes no responsibility for any errors which may appear in this document, reserves the right to change devices or specifications detailed herein at any time without notice, and does not make any commitment to update the information contained herein. No licenses to patents or other intellectual property of EM are granted in connection with the sale of EM products, expressly or by implications. EM's products are not authorized for use as components in life support devices or systems. (c) EM Microelectronic-Marin SA, 02/05, Rev. F Copyright (c) 2005, EM Microelectronic-Marin SA 7 www.emmicroelectronic.com |
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