ATA556711N-DDW Atmel, ATA556711N-DDW Datasheet

Page 1

Features • Contactless Read/Write Data Transmission • Radio Frequency f from 100 kHz to 150 kHz RF • e5550, e5551, T5557 Binary Compatible • Extended Mode • Small Size, Configurable for ISO/IEC 11784/785 Compatibility • On-chip Resonant Capacitor ...

Page 2

System Block Diagram Figure 2-1. 3. ATA5567 – Building Blocks Figure 3-1. 3.1 Analog Front End (AFE) The AFE includes all circuits which are directly connected to the coil. It generates the IC’s power supply and handles the bi-directional ...

Page 3

... RF/64, RF/100, and RF/128). 3.3 Write Decoder This function decodes the write gaps and verifies the validity of the data stream according to the Atmel e555x write method (pulse interval encoding). 3.4 HV Generator This on-chip charge pump circuit generates the high voltage required for programming of the EEPROM ...

Page 4

Figure 3-2. Block 0 Configuration Mapping – e5550 Compatibility Mode Master Key Note 1 Unlocked 1 Locked 1) If Master Key = 6 then test ...

Page 5

... ID (15h). The following 8 bits are used as IC reference byte (ICR bits 47 to 40). The 3 most significant bits define the IC version of the ATA5567, the foundry version, or both. The lower 5 bits are by default reset (00) as the Atmel standard value. Other values may be assigned, by request, to high volume customers as tag issuer identification. ...

Page 6

... Bit No "557" Allocation class as defined in ISO/IEC 15963-1 = E0h Manufacturer code of Atmel Corporation as defined in ISO/IEC 7816-6 = 15h UID issuer identifier on request (respectively 5 bit CID and 3 bit ICR) Customer ID on request IC revision 5-digit lot number, e.g., “41557” 5 bits for wafer# 15 bits encoded as sequential die on wafer number ...

Page 7

Tag to Reader Communication During normal operation, the data stored within the EEPROM is cycled and the Coil 1 and Coil 2 terminals are load modulated. This resistive load modulation can be detected at the reader module. 4.3 Regular-read ...

Page 8

Sequence Terminator The sequence terminator special damping pattern which is inserted before the first block and may be used to synchronize the reader. This e5550-compatible sequence terminator con- sists of 4 bit periods with underlaying ...

Page 9

Reader to Tag Communication Data is written to the tag by interrupting the RF field with short field gaps (on-off keying) in accor- dance with the e5550 write method. The time between two gaps encodes the “0” or “1” ...

Page 10

Write Data Protocol The ATA5567 expects to receive a dual bit opcode as the first two bits of a reader command sequence. There are three valid opcodes: • The opcodes “10” and “11” precede all block write and direct ...

Page 11

Figure 4-6. ATA5567 Command Formats Standard write Protected write AOR (wake-up command) Direct access (PWD = 1) Direct access (PWD = 0) Page 0/1 regular read Reset command 4.9 Password When password mode is active (PWD = 1), the first ...

Page 12

Figure 4-7. Answer-On-Request (AOR) Mode ATA55671x V Coil1 - Coil2 Block 0 loading POR Figure 4-8. Coil Voltage after Programming of a Memory Block V Coil 1 - Coil 2 Write data to tag ATA5567 12 ATA556701 No modulation because ...

Page 13

Figure 4-9. Anticollision Procedure Using AOR Mode Initialize tags with AOR = 1, PWD = 1 Wait for t "Select a single tag" send opcode + PWD "wake up command" Decode data No All tags read ? 4874F–RFID–07/08 Reader Field ...

Page 14

Programming When all necessary information has been received by the ATA5567, programming may proceed. There is a clock delay between the end of the writing sequence and the start of programming. Typical programming time is 5.6 ms. This cycle ...

Page 15

Figure 5-1. ATA5567 Functional Diagram Gap Modulation defeat OP(00) to page 0 Data verification failed page selector 6. ATA5567 in Extended Mode (X-mode) In general, the block 0 setting of the master key (bits ...

Page 16

Binary Bit-rate Generator In extended mode the data rate is binary programmable to operate at any data rate between RF/2 and RF/128 as given in the formula below. Data rate = 6.2 OTP Functionality ...

Page 17

Sequence Start Marker Figure 6-2. ATA5567 Sequence Start Marker in Extended Mode Sequence Start Marker Block read mode 10 Regular read mode 10 The ATA5567 sequence start marker is a special damping pattern, which may be used to syn- ...

Page 18

Fast Write In the optional fast write mode, the time between two gaps is nominally 12 field clocks for a “0” and 27 field clocks for a “1”. When there is no gap for more than 32 field clocks ...

Page 19

Figure 6-4. 4874F–RFID–07/08 Example of Manchester Coding with Data Rate RF/16 ATA5567 19 ...

Page 20

Figure 6-5. ATA5567 20 Example of Bi-phase Coding with Data Rate RF/16 4874F–RFID–07/08 ...

Page 21

Figure 6-6. 4874F–RFID–07/08 Example: FSK1a Coding with Data Rate RF/40, Subcarrier f ATA5567 = RF/ RF ...

Page 22

Figure 6-7. ATA5567 22 Example of PSK1 Coding with Data Rate RF/16 4874F–RFID–07/08 ...

Page 23

Figure 6-8. 4874F–RFID–07/08 Example of PSK2 Coding with Data Rate RF/16 ATA5567 23 ...

Page 24

Figure 6-9. ATA5567 24 Example of PSK3 Coding with Data Rate RF/16 4874F–RFID–07/08 ...

Page 25

... AC coil voltage measurement setup 2 mod 4. Since EEPROM performance is influenced by assembly processes, Atmel confirms the parameters for DOW (tested die on uncut wafer) delivery. 5. The tolerance of the on-chip resonance capacitor C ± wafer basis. 6. The tolerance of the micromodule resonance capacitor C 4874F– ...

Page 26

... AC coil voltage measurement setup 2 mod 4. Since EEPROM performance is influenced by assembly processes, Atmel confirms the parameters for DOW (tested die on uncut wafer) delivery. 5. The tolerance of the on-chip resonance capacitor C ± wafer basis. 6. The tolerance of the micromodule resonance capacitor C Figure 8-1 ...

Page 27

... ATA556715 - Package - PAE 9.1 Ordering Examples ATA556714N-DDB 9.2 Available Order Codes ATA556711N-DDT 1 ATA556711N-DDB ATA556714N-DDB ATA556715-PAE ATA556711-TASY New order codes will be created by customer request if order quantities are over 250k pieces. 4874F–RFID–07/08 (1) - Die on wafer, 6” unsawn wafer, thickness 300 µm (on request) - Die in tray (waffle pack), thickness 300 µ ...

Page 28

Package Information Figure 10-1. 2-pad Layout Dimensions in µm 124 87 ATA5567 28 994 ATA5567 125 C2 497 149.5 4874F–RFID–07/08 ...

Page 29

Figure 10-2. 4-pad Layout Dimensions in µm 124 97 107 4874F–RFID–07/08 994 60 ATA5567 100 C2 497 ATA5567 157 29 ...

Page 30

Figure 10-3. 6” Sawn Wafer with Ring, Thickness 150 µm A 227 ATA5567 30 59.5 A 212 ( 194.5) 2.5:1 1.5x45 ˚ 63.6 4874F–RFID–07/08 ...

Page 31

... Shift-ASML = [0.3; –6.9]: 15539 dice, 87 shots (11 columns 9 rows) > Shift-CANON/ALARM/SEM = [0.3; –6.9] – [–13.152; 6.9] – [–6.648; 6.9] 10.1 Failed Die Identification Every die on the wafer not passing Atmel’s test sequence is marked with ink. The ink dot specification: • Dot size: 200 µm • Position: center of die • ...

Page 32

Figure 10-5. NOA3 Micromodule technical drawings according to DIN specifications Dimensions in mm Note: 1. Reject hole by testing device 2. Punching cutline recommendation for singulation 3. Total package thickness exclusive punching burr 4. Module dimension after electrical disconnection Drawing-No.: ...

Page 33

Figure 10-6. Shipping Reel 4874F–RFID–07/08 Ø 329.6 R1.14 2.3 Ø13 Ø171 Ø175 16.7 ATA5567 41.4 to max 43.0 2 2.2 33 ...

Page 34

Figure 10-7. SO8 Package Package Dimensions in mm 0.4 1.27 Drawing-No.: 6.541-5031.01-4 Issue: 1; 15.08.06 Figure 10-8. Pinning SO8 ATA5567 34 4.9 ±0.1 3. COIL2 1 8 COIL1 ...

Page 35

Revision History Please note that the following page numbers referred to in this section refer to the specific revision mentioned, not to this document. Revision No. 4874F-RFID-07/08 4874E-RFID-10/07 4874F–RFID–07/08 History Section 3.12 “Traceability Data Structure” on page 5 changed ...

Page 36

... Disclaimer: The information in this document is provided in connection with Atmel products. No license, express or implied, by estoppel or otherwise, to any intellectual property right is granted by this document or in connection with the sale of Atmel products. EXCEPT AS SET FORTH IN ATMEL’S TERMS AND CONDI- TIONS OF SALE LOCATED ON ATMEL’S WEB SITE, ATMEL ASSUMES NO LIABILITY WHATSOEVER AND DISCLAIMS ANY EXPRESS, IMPLIED OR STATUTORY WARRANTY RELATING TO ITS PRODUCTS INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, OR NON-INFRINGEMENT ...