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| M27V102 1 Mbit (64Kb x 16) Low Voltage UV EPROM and OTP EPROM LOW VOLTAGE READ OPERATION: 3V to 3.6V FAST ACCESS TIME: 90ns LOW POWER CONSUMPTION: - Active Current 15mA at 5MHz - Standby Current 20A PROGRAMMING VOLTAGE: 12.75V 0.25V PROGRAMMING TIME: 100s/byte (typical) ELECTRONIC SIGNATURE - Manufacturer Code: 0020h - Device Code: 008Ch DESCRIPTION The M27W102 is a low voltage 1 Mbit EPROM offeredin the two ranges UV (ultra violet erase) and OTP (one time programmable). It is ideally suited for microprocessor systems requiring large data or program storage and is organized as 65,536 words by 16 bits. The M27V102 operates in the read mode with a supply voltage as low as 3V. The decrease in operating power allows either a reduction of the size of the battery or an increase in the time between battery recharges. The FDIP40W (window ceramic frit-seal package) has a transparent lid which allows the user to expose the chip to ultraviolet light to erase the bit pattern. A new pattern can then be written to the device by following the programming procedure. Table 1. Signal Names A0 - A15 Q0 - Q15 E G P VPP VCC VSS Address Inputs 40 40 1 1 FDIP40W (F) PDIP40 (B) PLCC44 (K) TSOP40 (N) 10 x 14mm Figure 1. Logic Diagram VCC VPP 16 A0-A15 16 Q0-Q15 P E M27V102 Data Outputs Chip Enable Output Enable Program Program Supply Supply Voltage Ground G VSS AI01912 May 1998 1/15 M27V102 Figure 2A. DIP Pin Connections VPP E Q15 Q14 Q13 Q12 Q11 Q10 Q9 Q8 VSS Q7 Q6 Q5 Q4 Q3 Q2 Q1 Q0 G 1 40 2 39 3 38 4 37 5 36 6 35 7 34 8 33 9 32 10 31 M27V102 11 30 12 29 13 28 14 27 15 26 16 25 17 24 18 23 19 22 20 21 AI01913 Figure 2B. LCC Pin Connections VCC P NC A15 A14 A13 A12 A11 A10 A9 VSS A8 A7 A6 A5 A4 A3 A2 A1 A0 Q12 Q11 Q10 Q9 Q8 VSS NC Q7 Q6 Q5 Q4 Q13 Q14 Q15 E VPP NC VCC P NC A15 A14 1 44 A13 A12 A11 A10 A9 VSS NC A8 A7 A6 A5 12 M27V102 34 23 Q3 Q2 Q1 Q0 G NC A0 A1 A2 A3 A4 AI01914 Warning: NC = Not Connected. Warning: NC = Not Connected. Figure 2C. TSOP Pin Connections A9 A10 A11 A12 A13 A14 A15 NC P VCC VPP E DQ15 DQ14 DQ13 DQ12 DQ11 DQ10 DQ9 DQ8 1 40 VSS A8 A7 A6 A5 A4 A3 A2 A1 A0 G DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 VSS DESCRIPTION (cont'd) For application where the content is programmed only one time and erasure is not required, the M27V102 is offered in PDIP40, PLCC32 and TSOP40 (10 x 14 mm) packages. DEVICE OPERATION The operating modes of the M27V102 are listed in the Operating Modes table. A single power supply is required in the read mode. All inputs are TTL levels except for Vpp and 12V on A9 for Electronic Signature. Read Mode The M27V102 has two control functions, both of which must be logically active in order to obtaindata at the outputs. Chip Enable (E) is the power control and should be used for device selection. Output Enable (G) is the output control and should be used to gate data to the output pins, independent of device selection. Assuming that the addresses are stable, the address access time (t AVQV) is equal to the delay from E to output (t ELQV). Data is available at the output after a delay of tOE from the falling edge of G, assuming that E has been low and the addresses have been stable for at least tAVQVtGLQV. 10 11 M27V102 (Normal) 31 30 20 21 AI01915 Warning: NC = Not Connected. 2/15 M27V102 Table 2. Absolute Maximum Ratings (1) Symbol TA TBIAS TSTG VIO (2) Parameter Ambient Operating Temperature Temperature Under Bias Storage Temperature Input or Output Voltages (except A9) Supply Voltage A9 Voltage Program Supply Voltage (3) Value -40 to 125 -50 to 125 -65 to 150 -2 to 7 -2 to 7 -2 to 13.5 -2 to 14 Unit C C C V V V V VCC VA9 (2) VPP Notes: 1. Except for the rating "Operating Temperature Range", stresses above those listed in the Table "Absolute Maximum Ratings" may cause permanent damage to the device. These are stress ratings only and operation of the device at these or any other conditions above those indicated in the Operating sections of this specification is not i mplied. Exposure to Absolute Maximum Rating conditions for extended periods may affect device reliability. Refer also to the STMicroelectronics SURE Program and other relevant quality documents. 2. Minimum DC voltage on Input or Output is -0.5V with possible undershoot to -2.0V for a period less than 20ns. Maximum DC voltage on Output is VCC +0.5V with possible overshoot to VCC +2V for a period less than 20ns. 3. Depends on range. Table 3. Operating Modes Mode Read Output Disable Program Verify Program Inhibit Standby Electronic Signature Note: X = VIH or VIL, VID = 12V 0.5V E VIL VIL VIL VIL VIH VIH VIL G VIL VIH X VIL X X VIL P VIH X VIL Pulse VIH X X VIH A9 X X X X X X VID VPP VCC or VSS VCC or VSS VPP VPP VPP VCC or VSS VCC Q0 - Q15 Data Output Hi-Z Data Input Data Output Hi-Z Hi-Z Codes Table 4. Electronic Signature Identifier Manufacturer's Code Device Code A0 VIL VIH Q7 0 1 Q6 0 0 Q5 1 0 Q4 0 0 Q3 0 1 Q2 0 1 Q1 0 0 Q0 0 0 Hex Data 20h 8Ch Standby Mode The M27V102 has a standby mode which reduces the active current from 15mA to 20A with low voltage operation VCC 3.6V, see Read Mode DC Characteristics table for details. The M27V102 is placed in the standby mode by applying a TTL high signal to the E input. When in the standby mode, the outputs are in a high impedance state, independent of the G input. Two Line Output Control BecauseEPROMs are usually used in larger memory arrays, this product features a 2 line control function which accommodates the use of multiple memory connection. The two line control function allows: a. the lowest possible memory power dissipation, b. complete assurance that output bus contention will not occur. 3/15 M27V102 Table 5. AC Measurement Conditions High Speed Input Rise and Fall Times Input Pulse Voltages Input and Output Timing Ref. Voltages 10ns 0 to 3V 1.5V Standard 20ns 0.4V to 2.4V 0.8V and 2V Figure 3. AC Testing Input Output Waveform Figure 4. AC Testing Load Circuit 1.3V High Speed 3V 1.5V 0V DEVICE UNDER TEST 2.0V 0.8V AI01822 1N914 3.3k Standard 2.4V OUT CL 0.4V CL = 30pF for High Speed CL = 100pF for Standard CL includes JIG capacitance AI01823B Table 6. Capacitance (1) (TA = 25 C, f = 1 MHz ) Symbol CIN C OUT Parameter Input Capacitance Output Capacitance Test Condition VIN = 0V VOUT = 0V Min Max 6 12 Unit pF pF Note: 1. Sampled only, not 100% tested. For the most efficient use of thesetwo control lines, E should be decoded and used as the primary device selecting function, while G should be made a common connection to all devices in the array and connected to the READ line from the system control bus. This ensures that all deselectedmemory devices are in their low power standby mode and that the output pins are only active when data is required from a particular memory device. System Considerations The power switching characteristics of Advanced CMOS EPROMs require careful decoupling of the devices. The supply current, ICC, has three segments that are of interest to the system designer : the standby current level, the active current level, and transient current peaks that are produced by the falling and rising edges of E. The magnitude of 4/15 transientcurrent peaks is dependenton the capacitive and inductive loading of the device at the output. The associated transient voltage peaks can be suppressed by complying with the two line output control and by properly selected decoupling capacitors. It is recommended that a 0.1F ceramic capacitor be used on every device between VCC and VSS. This should be a high frequency capacitor of low inherent inductance and should be placed as close to the device as possible. In addition, a 4.7F bulk electrolytic capacitor should be used between Vcc and VSS for every eight devices. The bulk capacitor should be located near the power supply connection point. The purpose of the bulk capacitor is to overcome the voltage drop caused by the inductive effects of PCB traces. M27V102 Table 7. Read Mode DC Characteristics (1) (TA = 0 to 70 C or -40 to 85 C; VCC = 3.3V 10%; VPP = VCC) Symbol ILI ILO ICC ICC1 ICC2 IPP VIL VIH (2) Parameter Input Leakage Current Output Leakage Current Supply Current Supply Current (Standby) TTL Supply Current (Standby) CMOS Program Current Input Low Voltage Input High Voltage Output Low Voltage Output High Voltage TTL Output High Voltage CMOS Test Condition 0V VIN VCC 0V VOUT VCC E = VIL, G = VIL, IOUT = 0mA, f = 5MHz, VCC 3.6V E = VIH E > VCC - 0.2V, V CC 3.6V VPP = VCC Min Max 10 10 15 1 20 10 Unit A A mA mA A A V V V V V -0.3 2 IOL = 2.1mA IOH = -400A IOH = -100A 2.4 VCC - 0.7V 0.8 VCC + 1 0.4 VOL VOH Notes: 1. VCC must be applied simultaneously with or before VPP and removed simultaneously or after VPP. 2. Maximum DC voltage on Output is VCC +0.5V Table 8A. Read Mode AC Characteristics (1) (TA = 0 to 70 C or -40 to 85 C; VCC = 3.3V 10%; VPP = VCC) M27V102 Symbol Alt Parameter Test Condition -90 Min tAVQV tELQV tGLQV tEHQZ tGHQZ (2) (2) (3) -100 Min Max 100 100 50 0 0 0 30 30 Unit Max 90 90 45 tACC tCE tOE tDF tDF tOH Address Valid to Output Valid Chip Enable Low to Output Valid Output Enable Low to Output Valid Chip Enable High to Output Hi-Z Output Enable High to Output Hi-Z Address Transition to Output Transition E = VIL, G = VIL G = VIL E = VIL G = VIL E = VIL E = VIL, G = VIL 0 0 0 ns ns ns ns ns ns 30 30 tAXQX Notes: 1. VCC must be applied simultaneously with or before VPP and removed simultaneously with or after V PP. 2. Sampled only, not 100% tested. 3. Speed obtained with High Speed AC measurement conditions. 5/15 M27V102 Table 8B. Read Mode AC Characteristics (1) (TA = 0 to 70 C or -40 to 85 C; VCC = 3.3V 10%; VPP = VCC) M27V102 Symbol Alt Parameter Test Condition -120 -150 -200 Unit Min Max Min Max Min Max tAVQV tELQV tGLQV tEHQZ tGHQZ (2) (2) tACC tCE tOE tDF tDF tOH Address Valid to Output Valid Chip Enable Low to Output Valid Output Enable Low to Output Valid Chip Enable High to Output Hi-Z Output Enable High to Output Hi-Z Address Transition to Output Transition E = VIL, G = VIL G = VIL E = VIL G = VIL E = VIL E = VIL, G = VIL 0 0 0 120 120 50 40 40 0 0 0 150 150 60 50 50 0 0 0 200 200 90 70 70 ns ns ns ns ns ns tAXQX Notes: 1. VCC must be applied simultaneously with or before VPP and removed simultaneously with or after VPP. 2. Sampled only, not 100% tested. Figure 5. Read Mode AC Waveforms A0-A15 VALID tAVQV tAXQX VALID E tGLQV G tELQV Q0-Q15 tGHQZ Hi-Z tEHQZ AI00705B Programming The M27V102 has been designed to be fully compatible with the M27C1024 and has the same elecronic signature. As a result the M27V102 can be programmed as the M27C1024 on the same programming equipments applying 12.75V on VPP and 6.25V on VCC by the use of the same PRESTO II algorithm. When delivered (and after each '1's erasure for UV EPROM), all bits of the M27V102 are in the '1' state. Data is introduced by selectively programming '0's into the desired bit locations. Although only '0's will be programmed, both '1's and '0's can be present in the data word. The only way to change a '0' to a '1' is by die exposure to ultraviolet light (UV EPROM). The M27V102 is in the programming mode when VPP input is at 12.75V, E is at VIL and P is pulsed to VIL. The data to be programmed is applied to 16 bits in parallel to the data output pins. The levels required for the address and data inputs are TTL. V CC is specified to be 6.25V 0.25V. 6/15 M27V102 Table 9. Programming Mode DC Characteristics (1) (TA = 25 C; VCC = 6.25V 0.25V; VPP = 12.75V 0.25V) Symbol ILI ICC IPP VIL V IH VOL V OH V ID Parameter Input Leakage Current Supply Current Program Current Input Low Voltage Input High Voltage Output Low Voltage Output High Voltage TTL A9 Voltage IOL = 2.1mA IOH = -400A 2.4 11.5 12.5 E = VIL -0.3 2 Test Condition 0 VIN VIH Min Max 10 50 50 0.8 VCC + 0.5 0.4 Unit A mA mA V V V V V Note: 1. VCC must be applied simultaneously with or before VPP and removed simultaneously with or after V PP. Table 10. Programming Mode AC Characteristics (1) (TA = 25 C; VCC = 6.25V 0.25V; VPP = 12.75V 0.25V) Symbol tAVPL tQVPL tVPHPL tVCHPL tELPL tPLPH tPHQX tQXGL tGLQV tGHQZ (2) Alt tAS tDS tVPS tVCS tCES tPW tDH tOES tOE tDFP tAH Parameter Address Valid to Program Low Input Valid to Program Low VPP High to Program Low VCC High to Program Low Chip Enable Low to Program Low Program Pulse Width Program High to Input Transition Input Transition to Output Enable Low Output Enable Low to Output Valid Output Enable High to Output Hi-Z Output Enable High to Address Transition Test Condition Min 2 2 2 2 2 95 2 2 Max Unit s s s s s 105 s s s 100 0 0 130 ns ns ns tGHAX Notes: 1. VCC must be applied simultaneously with or before VPP and removed simultaneously with or after V PP. 2. Sampled only, not 100% tested. 7/15 M27V102 Figure 6. Programming and Verify Modes AC Waveforms A0-A15 tAVPL Q0-Q15 tQVPL VPP tVPHPL VCC tVCHPL E tELPL P tPLPH G tQXGL tGHAX tGLQV tGHQZ DATA IN tPHQX DATA OUT VALID PROGRAM VERIFY AI00706 Figure 7. Programming Flowchart VCC = 6.25V, VPP = 12.75V n =0 P = 100s Pulse NO ++n = 25 YES NO VERIFY YES Last Addr NO ++ Addr FAIL YES CHECK ALL WORDS 1st: VCC = 6V 2nd: VCC = 4.2V AI00707C PRESTO II Programming Algorithm PRESTO II Programming Algorithm allows programming of the whole array with a guaranteed margin, in a typical time of 6.5 seconds. Programming with PRESTO II consists of applying a sequenceof 100 s program pulses toeach word until a correct verify occurs (see Figure 7). During programming and verify operation, a MARGIN MODE circuit is automaticallyactivated in order to guarantee that each cell is programmed with enough margin. No overprogrampulse is applied since the verify in MARGIN MODE at VCC much higher than 3.6V provides necessary margin to each programmed cell. Program Inhibit Programming of multiple M27V102s in parallel with different data is also easily accomplished. Except for E, all like inputs including G of the parallel M27V102 may be common. A TTL low level pulse applied to a M27V102'sP input, with E low and VPP at 12.75V, will program that M27V102. A high level E input inhibits the other M27V102s from being programmed. Program Verify A verify (read) should be performed on the programmed bits to determine that they were correctly programmed. The verify is accomplished with E 8/15 M27V102 and G at VIL, P at VIH, VPP at 12.75V and VCC at 6.25V. On-Board Programming The M27V102 can be directly programmed in the application circuit. See the relevant Application Note AN620. Electronic Signature The Electronic Signature (ES) mode allows the reading out of a binary code from an EPROM that will identify its manufacturer and type. This mode is intended for use by programming equipment to automatically match the device to be programmed with its correspondingprogramming algorithm. The ES mode is functional in the 25C 5C ambient temperature range that is required when programming the M27V102. To activate the ES mode, the programming equipmentmust force 11.5Vto 12.5V on address line A9 of the M27V102 with VPP = VCC = 5V. Two identifier bytes may then be sequenced from the device outputs by togglingaddress line A0 from VIL to VIH. All other address lines must be held at VIL during Electronic Signature mode. Byte 0 (A0=VIL) represents the manufacturer code and byte 1 (A0=VIH) the device identifier code. For the STMicroelectronics M27V102, these two iden-tifier bytes are given in Table 4 and can be read-out on outputs Q0 to Q7. Note that the M27V102 and M27C1024 have the same identifier bytes. ERASURE OPERATION (applies to UV EPROM) Theerasure characteristics of the M27V102is such that erasure begins when the cells are exposed to light with wavelengths shorter than approximately 4000 A. It should be noted that sunlight and some type of fluorescent lamps have wavelengths in the 3000-4000A range. Research shows that constant exposure to room level fluorescent lighting could erase a typical M27V102 in about 3 years, while it would take approximately 1 week to cause erasure when exposed to direct sunlight. If the M27V102 is to be exposed to these types of lighting conditions for extended periods of time, it is suggested that opaque labels be put over the M27V102 window to prevent unintentionalerasure. The recommended erasure procedure for the M27V102 is exposure to short wave ultraviolet light which has wavelength 2537 A. The integrated dose (i.e. UV intensity x exposure time) for erasure should be a minimum of 15 W-sec/cm2. The erasure time with this dosage is approximately 15 to 20 minutes using an ultravioletlamp with 12000 W/cm2 power rating. The M27V102 should be placed within 2.5 cm (1 inch) of the lamp tubes during the erasure. Some lamps have a filter on their tubes which should be removed before erasure. 9/15 M27V102 ORDERING INFORMATION SCHEME Example: M27V102 -90 K 1 TR Speed -90 (1) Package F B K N FDIP40W PDIP40 PLCC44 TSOP40 8 x 14mm Temperature Range 1 6 0 to 70 C -40 to 85 C TR Option Tape & Reel Packing 90 ns 100 ns 120 ns 150 ns 200 ns -100 -120 -150 -200 Note: 1. High Speed, see AC Characteristics section for further information. For a list of available options (Speed, Package, etc...) or for further informationon any aspect of this device, please contact the STMicroelectronics Sales Office nearest to you. 10/15 M27V102 FDIP40W - 40 pin Ceramic Frit-seal DIP, with window Symb Typ A A1 A2 A3 B B1 C D D2 E E1 e eA eB L S N 7.62 2.54 14.99 48.26 15.24 1.45 0.51 3.91 3.89 0.41 - 0.23 51.79 - - 13.06 - - 16.18 3.18 1.52 - 4 40 2.49 - 11 0.300 mm Min Max 5.72 1.40 4.57 4.50 0.56 - 0.30 52.60 - - 13.36 - - 18.03 0.100 0.590 1.900 0.600 0.057 0.020 0.154 0.153 0.016 - 0.009 2.039 - - 0.514 - - 0.637 0.125 0.060 - 4 40 0.098 - 11 Typ inches Min Max 0.225 0.055 0.180 0.177 0.022 - 0.012 2.071 - - 0.526 - - 0.710 A2 A3 A1 B1 B D2 D S N 1 A L eA eB C e E1 E FDIPW-a Drawing is not to scale. 11/15 M27V102 PDIP40 - 40 pin Plastic DIP, 600 mils body width Symb Typ A A1 A2 B B1 C D D2 E E1 e1 eA eB L S N 2.54 15.24 48.26 4.45 0.64 mm Min - 0.38 3.56 0.38 1.14 0.20 51.78 - 14.80 13.46 - - 15.24 3.05 1.52 0 40 Max - - 3.91 0.53 1.78 0.31 52.58 - 16.26 13.99 - - 17.78 3.81 2.29 15 0.100 0.600 1.900 Typ 0.175 0.025 inches Min - 0.015 0.140 0.015 0.045 0.008 2.039 - 0.583 0.530 - - 0.600 0.120 0.060 0 40 0.700 0.150 0.090 15E Max - - 0.154 0.021 0.070 0.012 2.070 - 0.640 0.551 - A2 A1 B1 B D2 D S N A L eA eB C e1 E1 1 E PDIP Drawing is not to scale. 12/15 M27V102 PLCC44 - 44 lead Plastic Leaded Chip Carrier, square Symb Typ A A1 A2 B B1 D D1 D2 E E1 E2 e F R N CP 0.89 1.27 mm Min 4.20 2.29 - 0.33 0.66 17.40 16.51 14.99 17.40 16.51 14.99 - 0.00 - 44 0.10 Max 4.70 3.04 0.51 0.53 0.81 17.65 16.66 16.00 17.65 16.66 16.00 - 0.25 - 0.035 0.050 Typ inches Min 0.165 0.090 - 0.013 0.026 0.685 0.650 0.590 0.685 0.650 0.590 - 0.000 - 44 0.004 Max 0.185 0.120 0.020 0.021 0.032 0.695 0.656 0.630 0.695 0.656 0.630 - 0.010 - D D1 1N A1 A2 B1 Ne E1 E F 0.51 (.020) D2/E2 B e 1.14 (.045) Nd A R CP PLCC Drawing is not to scale. 13/15 M27V102 TSOP40 - 40 lead Plastic Thin Small Outline, 10 x 14mm Symb Typ A A1 A2 B C D D1 E e L N CP 0.50 0.05 0.95 0.17 0.10 13.80 12.30 9.90 - 0.50 0 40 0.10 mm Min Max 1.20 0.15 1.05 0.27 0.21 14.20 12.50 10.10 - 0.70 5 0.020 0.002 0.037 0.007 0.004 0.543 0.484 0.390 - 0.020 0 40 0.004 Typ inches Min Max 0.047 0.006 0.041 0.011 0.008 0.559 0.492 0.398 - 0.028 5 A2 1 N e E B N/2 D1 D A CP DIE C TSOP-a Drawing is not to scale. A1 L 14/15 M27V102 Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Spec ifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics. The ST logo is a registered trademark of STMicroelectronics. (c) 1998 STMicroelectronics - All Rights Reserved STMicroelectronics GROUP OF COMPANIES Australia - Brazil - Canada - China - France - Germany - Italy - Japan - Korea - Malaysia - Malta - Morocco - The Netherlands - Singapore Spain - Sweden - Switzerland - Taiwan - Thailand - United Kingdom - U.S.A. 15/15 |
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