View ISD4003-04MPNBSP_193567.PDF datasheet online --- IC-ON-LINE

Datasheet File OCR Text:

ISD4003 Series
Single-Chip Voice Record/Playback Devices 4-, 5-, 6-, and 8-Minute Durations
GENERAL DESCRIPTION
The ISD4003 ChipCorder(R) Products provide highquality, 3-volt, single-chip Record/Playback solutions for 4- to 8-minute messaging applications which are ideal for cellular phones and other portable products. The CMOS-based devices include an on-chip oscillator, antialiasing filter, smoothing filter, AutoMuteTM feature, audio amplifier, and high density, multilevel Flash storage array. The ISD4003 series is designed to be used in a microprocessor- or microcontroller-based system. Address and control are accomplished through a Serial Peripheral Interface (SPI) or Microwire Serial Interface to minimize pin count. Recordings are stored in on-chip nonvolatile memory cells, providing zero-power message storage. This unique, single-chip solution is made possible through ISD's patented multilevel storage technology. Voice and audio signals are stored directly into memory in their natural form, providing high-quality, solid-state voice reproduction.
Figure: ISD4003 Series Block Diagram
June 2000 ISD/Winbond * 2727 North First Street, San Jose, CA 95134 * TEL: 408/943-6666 * FAX: 408/544-1787 * http://www.isd.com
ISD4003 Series
FEATURES
* Single-chip voice Record/Playback solution * Single +3 volt supply * Low-power consumption - Operating current: ICC Play = 15 mA (typical) ICC Rec = 25 mA (typical) - Standby current: 1 A (typical) * Single-chip durations of 4, 5, 6, and 8 minutes * High-quality, natural voice/audio reproduction * AutoMute feature provides background noise attenuation during periods of silence * No algorithm development required * Microcontroller SPI or MicrowireTM Serial Interface * Fully addressable to handle multiple messages * Nonvolatile message storage * Power consumption controlled by SPI or Microwire control register * 100-year message retention (typical) * 100K record cycles (typical) * On-chip clock source * Available in die form, PDIP, SOIC, TSOP, and chip scale packaging (CSP) * Extended temperature (-20C to + 70C) and industrial temperature (-40C to +85C) versions available
Table: ISD4003 Series Summary
Part Number ISD4003-04M ISD4003-05M ISD4003-06M ISD4003-08M Duration (minutes) 4.0 5.0 6.0 8.0 Input Sample Rate (KHz) 8.0 6.4 5.3 4.0 Typical Filter Pass Band (KHz) 3.4 2.7 2.3 1.7
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Table 2: Opcode Summary
Instruction 32:(583 6(73/$< 3/$< 6(75(& 5(& 6(70& 0& 6723 67233:5'1 5,17
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Opcode <5 bits> Address <11 bits> ;;;;;;;;;;;! $r$! ;;;;;;;;;;;! $r$! ;;;;;;;;;;;! $r$! ;;;;;;;;;;;! ; ;;;;;;;;;;;! ;; ;;;;;;;;;;;! ; ;;;;;;;;;;;!
Operational Summary 3RZHU8S 'HYLFH ZLOO EH UHDG\ IRU DQ RSHUDWLRQ DIWHU 7QV9 ,QLWLDWHV 3OD\EDFN IURP DGGUHVV $r$! 3OD\EDFN IURP WKH FXUUHQW DGGUHVV XQWLO (20 RU 29) ,QLWLDWHV D 5HFRUG RSHUDWLRQ IURP DGGUHVV $r$! 5HFRUGV IURP FXUUHQW DGGUHVV XQWLO 29) LV UHDFKHG ,QLWLDWHV 0HVVDJH &XHLQJ 0& IURP DGGUHVV $r$! 3HUIRUPV D 0HVVDJH &XH 3URFHHGV WR WKH HQG RI WKH FXUUHQW PHVVDJH (20 RU HQWHUV 29) FRQGLWLRQ LI QR PRUH PHVVDJHV DUH SUHVHQW 6WRSV FXUUHQW RSHUDWLRQ 6WRSV FXUUHQW 2SHUDWLRQ DQG HQWHUV VWDQGE\ SRZHUGRZQ PRGH 5HDG ,QWHUUXSW VWDWXV ELWV 2YHUIORZ DQG (20
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7KH IROORZLQJ GLDJUDP GHVFULEHV WKH 63, SRUW DQG WKH FRQWURO ELWV DVVRFLDWHG ZLWK LW Figure 4: SPI Port
63, &21752/ 5(*,67(5
7KH 63, FRQWURO UHJLVWHU SURYLGHV FRQWURO RI LQGLYLGXDO GHYLFH IXQFWLRQV VXFK DV 3OD\ 5HFRUG 0HVVDJH &XHLQJ 3RZHU8S DQG 3RZHU'RZQ 6WDUW DQG 6WRS RSHUDWLRQV DQG ,JQRUH $GGUHVV SRLQWHUV Table 3: SPI Control Register
Control Register 581 35 0& Bit Device Function (QDEOH RU 'LVDEOH DQ RSHUDWLRQ 6WDUW 6WRS 6HOHFWV 3OD\ RU 5HFRUG RSHUDWLRQ 3OD\ 5HFRUG (QDEOH RU 'LVDEOH 0HVVDJH &XHLQJ (QDEOH 0HVVDJH &XHLQJ 'LVDEOH 0HVVDJH &XHLQJ 3r3 $r$ ,$%
Control Register 38
Bit
Device Function 0DVWHU SRZHU FRQWURO

3RZHU8S 3RZHU'RZQ ,JQRUH DGGUHVV FRQWURO ELW

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Figure 5: SPI Interface Simplified Block Diagram
Table 4:
Absolute Maximum Ratings (Packaged Parts)(1)
Condition Value & r& WR & 9TT r 9 WR 988 9 9TT r 9 WR 988 9
Table 5:
Operating Conditions (Packaged Parts)
Condition Value & WR & r& WR & r& WR & 9 WR 9 9
-XQFWLRQ WHPSHUDWXUH 6WRUDJH WHPSHUDWXUH UDQJH 9ROWDJH DSSOLHG WR DQ\ SLQ 9ROWDJH DSSOLHG WR DQ\ SLQ ,QSXW FXUUHQW OLPLWHG WR P$
&RPPHUFLDO RSHUDWLQJ WHPSHUDWXUH UDQJH ([WHQGHG RSHUDWLQJ WHPSHUDWXUH ,QGXVWULDO RSHUDWLQJ WHPSHUDWXUH 6XSSO\ YROWDJH 988! *URXQG YROWDJH 9TT
!
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9TT r 9 WR 9ROWDJH DSSOLHG WR 026, 6&/. ,17 5$& DQG 66 SLQV ,QSXW FXUUHQW 9 OLPLWHG WR P$ /HDG WHPSHUDWXUH VROGHULQJ r VHFRQGV 988 r 9TT
& r 9 WR 9
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Table 6: DC Parameters (Packaged Parts)
Symbol 9DG 9DC 9PG 9PG 9PC ,88 Parameters ,QSXW /RZ 9ROWDJH ,QSXW +LJK 9ROWDJH 2XWSXW /RZ 9ROWDJH 5$& ,17 2XWSXW /RZ 9ROWDJH 2XWSXW +LJK 9ROWDJH 988 &XUUHQW 2SHUDWLQJ s 3OD\EDFN s 5HFRUG 988 &XUUHQW 6WDQGE\ ,QSXW /HDNDJH &XUUHQW 0,62 7ULVWDWH &XUUHQW 2XWSXW /RDG ,PSHGDQFH $1$ ,1 ,QSXW 5HVLVWDQFH $1$ ,1r ,QSXW 5HVLVWDQFH $1$ ,1 RU $1$ ,1r WR $8' 287 *DLQ 988 r 988 [ Min(2) Typ(1) Max(2) 988 [ Units 9 9 9 9 9 P$ P$ $ $ $ . . . G%
$
Conditions
,PG ,PG ,PC 5@YU 5@YU
"A#
$ P$ r $ " A"
,T7 ,DG ,Ca 5@YU 56I6ADI 56I6ADIr $6SQ
!
" # $
UvphyAhyr)AU6A2A!$8AhqA"AW 6yyAvhAyvvAhrAthhrrqAiADT9AvhAryrpvphyArvtAApuhhprvhvAIAhyyArpvsvphvAhrA A rprArrq W886AhqAW889AprprqAtrur TTA2AW886A2AW889AY8GFA2AHPTDA2AWTT62AWTT9AhqAhyyAurAvAsyhvt HrhrqAvuA6HrAsrhrAqvhiyrq
Table 7: AC Parameters (Packaged Parts)
Symbol )T Characteristic 6DPSOLQJ )UHTXHQF\ ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 Min(2) Typ(1) Max(2) Units .+] .+] .+] .+] .+] .+] .+] .+] PLQ PLQ PLQ PLQ
$ $ $ $
Conditions
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G% 5ROO2II 3RLQW"A& G% 5ROO2II 3RLQW"A& G% 5ROO2II 3RLQW"A& G% 5ROO2II 3RLQW"A&
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ISD4003 Series
Table 7: AC Parameters (Packaged Parts)
Symbol TPLAY Characteristic Playback Duration ISD4003-04M ISD4003-05M ISD4003-06M ISD4003-08M ISD4003-04M ISD4003-05M ISD4003-06M ISD4003-08M ISD4003-04M ISD4003-05M ISD4003-06M ISD4003-08M ISD4003-04M ISD4003-05M ISD4003-06M ISD4003-08M ISD4003-04M ISD4003-05M ISD4003-06M ISD4003-08M ISD4003-04M ISD4003-05M ISD4003-06M ISD4003-08M ISD4003-04M ISD4003-05M ISD4003-06M ISD4003-08M Min(2) Typ(1) 4 5 6 8 25 31.25 37.5 50 50 62.5 75 100 200 250 300 400 25 31.25 37.5 50 125 156.3 187.5 250 15.63 19.53 23.44 31.25 1 2 32 Max(2) Units min min min min msec msec msec msec msec msec msec msec msec msec msec msec msec msec msec msec sec sec sec sec sec sec sec sec % mV @ 1 KHz Peak-to-Peak(4) (8) (9)
(10) (10) (10) (10) (6) (6) (6) (6)
Conditions
TPUD
Power-Up Delay
TSTOP or TPAUSE
Stop or Pause in Record or Play
TRAC
RAC Clock Period
TRACLO
RAC Clock Low Time
TRACM
RAC Clock Period in Message Cueing Mode RAC Clock Low Time in Message Cueing Mode
TRACML
THD VIN
1. 2. 3. 4. 5.
Total Harmonic Distortion ANA IN Input Voltage
Typical values: TA = 25C and 3.0 V. All min/max limits are guaranteed by ISD via electrical testing or characterization. Not all specifications are 100 percent tested. Low-frequency cut off depends upon the value of external capacitors (see Pin Descriptions). Single-ended input mode. In the differential input mode, VIN maximum for ANA IN+ and ANA IN- is 16 mVp-p. Sampling Frequency can vary as much as 2.25 percent over the commercial temperature, and voltage ranges, and -6/+4 percent over the extended temperature, industrial temperature and voltage ranges. For greater stability, an external clock can be utilized (see Pin Descriptions). Playback and Record Duration can vary as much as 2.25 percent over the commercial temperature and voltage ranges, and -6/+4 percent over the extended temperature, industrial temperature and voltage ranges. For greater stability, an external clock can be utilized (see Pin Descriptions). Filter specification applies to the antialiasing filter and the smoothing filter. Therefore, from input to output, expect a 6dB drop by nature of passing through both filters. The typical output voltage will be approximately 570mVp-p with VIN at 32mVp-p. For optimal signal quality, this maximum limit is recommended.
6.
7. 8. 9.
10. When a record command is sent, TRAC = TRAC + TRACLO on the first row addressed. Voice Solutions in SiliconTM
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Table 8: Absolute Maximum Ratings (Die)(1)
Condition -XQFWLRQ WHPSHUDWXUH 6WRUDJH WHPSHUDWXUH UDQJH 9ROWDJH DSSOLHG WR DQ\ SDG 9ROWDJH DSSOLHG WR DQ\ SDG ,QSXW FXUUHQW OLPLWHG WR P$ Value & r& WR & 9TT r 9 WR 988 9 9TT r 9 WR 988 9
Table 9:
Operating Conditions (Die)
Condition Value & WR & 9 WR 9 9
&RPPHUFLDO RSHUDWLQJ WHPSHUDWXUH UDQJH 6XSSO\ YROWDJH 988
*URXQG YROWDJH 9TT!
!
W&&A2AW&&$A2AW&&' W66A2AW66$A2AW66'A
9ROWDJH DSSOLHG WR 026, 6&/. ,17 9TT r 9 WR 5$& DQG 66 SLQV ,QSXW FXUUHQW 9 OLPLWHG WR P$ 988 r 9TT
r 9 WR 9
TrrAhirAurAyvrqAhAphrArhrA qhhtrAAurAqrvprA@rAAurAhiyrA hvAhvtAhAhssrpAqrvprAryvhivyvA ApvhyArhvAvAAvyvrqAhAurrApqvvA
Table 10: DC Parameters (Die)
Symbol 9DG 9DC 9PG 9PG 9PC ,88 Parameters ,QSXW /RZ 9ROWDJH ,QSXW +LJK 9ROWDJH 2XWSXW /RZ 9ROWDJH 5$& ,17 2XWSXW /RZ 9ROWDJH 2XWSXW +LJK 9ROWDJH 988 &XUUHQW 2SHUDWLQJ s 3OD\EDFN s 5HFRUG 988 &XUUHQW 6WDQGE\ ,QSXW /HDNDJH &XUUHQW 0,62 7ULVWDWH &XUUHQW 2XWSXW /RDG ,PSHGDQFH $1$ ,1 ,QSXW 5HVLVWDQFH $1$ ,1r ,QSXW 5HVLVWDQFH $1$ ,1 RU $1$ ,1r WR $8'287 *DLQ 988 r 988 [ Min(2) Typ(1) Max(2) 988 [ Units 9 9 9 9 9 P$ P$ $ $ $ . . . G%
$
Conditions
,PG ,PG ,PC 5@YU 5@YU
"A#
$ P$ r $
" A"
,T7 ,DG ,Ca 5@YU 56I6ADI 56I6ADIr $6SQ
!
" # $
UvphyAhyr)AU6A2A!$8AhqA"AW 6yyAvhAyvvAhrAthhrrqAiADT9AvhAryrpvphyArvtAApuhhprvhvAIAhyyArpvsvphvAhrA A rprArrq W886AhqAW889AprprqAtrur TTA2AW8862AW889AY8GFA2AHPTDA2AWTT6A2AWTT9AhqAhyyAurAvAsyhvt HrhrqAvuA6HrAsrhrAqvhiyrq
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Table 11: AC Parameters (Die)
Symbol )T Characteristic 6DPSOLQJ )UHTXHQF\ ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 ,6'0 Min(2) Typ(1) Max(2) Units .+] .+] .+] .+] .+] .+] .+] .+] PLQ PLQ PLQ PLQ PLQ PLQ PLQ PLQ PVHF PVHF PVHF PVHF PVHF PVHF PVHF PVHF PVHF PVHF PVHF PVHF PVHF PVHF PVHF PVHF VHF VHF VHF VHF VHF VHF VHF VHF
( ( ( ( $ $ $ $
Conditions
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G% 5ROO2II 3RLQW "A% G% 5ROO2II 3RLQW "A% G% 5ROO2II 3RLQW "A% G% 5ROO2II 3RLQW "A%
$ $ $ $
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7S68GP
5$& &ORFN /RZ 7LPH
7S68H
5$& &ORFN 3HULRG LQ 0HVVDJH &XHLQJ 0RGH 5$& &ORFN /RZ 7LPH LQ 0HVVDJH &XHLQJ 0RGH
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Table 11: AC Parameters (Die)
Symbol 7+' 9DI
!
Characteristic 7RWDO +DUPRQLF 'LVWRUWLRQ $1$ ,1 ,QSXW 9ROWDJH
Min(2)
Typ(1)
Max(2)
Units
Conditions # .+]
P9
3HDNWR3HDN#&'
UvphyAhyr)AU6A2A!$8AhqA"AW 6yyAvhAyvvAhrAthhrrqAiADT9AvhAryrpvphyArvtAApuhhprvhvAIAhyyArpvsvphvAhrA A rprArrq GsrrpApAssAqrrqAAurAhyrAsArrhyAphhpvArrAQvA9rpvv TvtyrrqrqAvAqrADAurAqvssrrvhyAvAqrAWDIAhvAsA6I6ADIAhqA6I6ADIAvA %AWArhx rhx ThyvtAArrpAhqA9hvAphAhAhApuAhA!!$ArprArAurAprpvhyArrhrAhqA yhtrAhtrAAAtrhrAhivyvAhArrhyApypxAphAirAvyvrqArrAQvA9rpvv AvyrArpvsvphvAhyvrAAurAhvhyvhvtAsvyrAhqAAurAuvtAsvyr UurAvphyAAyhtrAvyyAirAhvhryA$&AWArhxrhxAvuAWDIAhA"!AWArhxrhx AAvhyAvthyAhyvAuvAhvAyvvAvArprqrq XurAhArpqAphqAvArAUS68 2 US68 US68GPAAurAsvAAhqqrrq
" #
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Table 12: SPI AC Parameters1
Symbol 7TTT 7TTC 79DT 79DC 7Q9 79A! 7TTv 7T8Fuv 7T8Fy ) Characteristics 66 6HWXS 7LPH 66 +ROG 7LPH 'DWD LQ 6HWXS 7LPH 'DWD LQ +ROG 7LPH 2XWSXW 'HOD\ 2XWSXW 'HOD\ WR KL= 66 +,*+ 6&/. +LJK 7LPH 6&/. /RZ 7LPH &/. )UHTXHQF\ Min Max Units QVHF QVHF QVHF QVHF QVHF QVHF VHF QVHF QVHF .+] Conditions
!
UvphyAhyr)AU62A!$8AhqA"AWAUvvtArhrqAhA$ArprAsAurAW88Ayrry UvhrArApqvv
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7,0,1* ',$*5$06
Figure 6: Timing Diagram
Figure 7: 8-Bit Command Format
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Figure 8: 16-Bit Command Format
Figure 9: Playback/Record and Stop Cycle
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Figure 10: Application Example Using SPI(1)
UuvAhyvphvArhyrAvAsAvyyhvArAyADT9AhxrAArrrhvAAhhAuhApuA hyvphvAvyyAirAvhiyrAsAqpv QyrhrAhxrArAurAihAphhpvA8!AvAhApyrAhAviyrAAurAhpxhtr
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Figure 11: Application Example Using Microwire(1)
UuvAhyvphvArhyrAvAsAvyyhvArAyADT9AhxrAArrrhvAAhhAuhApuA hyvphvAvyyAirAvhiyrAsAqpv QyrhrAhxrArAurAihAphhpvA8!AvAhApyrAhAviyrAAurAhpxhtr
!
Figure 12: Application Example Using SPI Port on Microcontroller(1)
UuvAhyvphvArhyrAvAsAvyyhvArAyADT9AhxrAArrrhvAAhhAuhApuA hyvphvAvyyAirAvhiyrAsAqpv QyrhrAhxrArAurAihAphhpvA8!AvAhApyrAhAviyrAAurAhpxhtr
!
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Figure 13: Application Example Using SPI with a Chip Scale Packaged Device
UuvAhyvphvArhyrAvAsAvyyhvArAyADT9AhxrAArrrhvAAhhAuhApuA hyvphvAvyyAirAvhiyrAsAqpv QyrhrAhxrArAhyyAihAphhpvAhrAhApyrAhAviyrAAurAhpxhtr BqAyhrAAirArqAAprpAhyyAWTT6AvAtrurADsAhAtqAyhrAvAAhhvyhiyrAurAhAuA hqAyAvrqhprAhuAvArprh SrA6I6ADIAhqA6I6ADIAhhAsAW889AhqAWTT9ArAhu 7vhvtAsAryrprAvpurAAprAsAW886AhqAWTT6 6H86QAArAAWTT6 UhprAsAW889!AAurAG9PAGA9ArtyhAhqAsAWTT9!AAurAG9PAtqAuyqAirAhAuvpxAhA viyrAUurAqvhprAirrrAurrAAhprAuyqAirAhAuAhAviyr
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Figure 14: 28-Lead 8x13.4 mm Plastic Thin Small Outline Package (TSOP) Type I (E)
Table 13: Plastic Thin Small Outline Package (TSOP) Type I (E) Dimensions
INCHES Min $ % & ' ( ) * + ,
GrhqApyhhvAAirAvuvA#Avpur
MILLIMETERS Max Min Nom Max
Nom

IPU@)
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Figure 15: 28-Lead 0.600-Inch Plastic Dual Inline Package (PDIP) (P)
Table 14: Plastic Dual Inline Package (PDIP) (P) Dimensions
INCHES Min $ % % & & ' ' ( ) * + 6 T Nom Max Min MILLIMETERS Nom Max
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Figure 16: 28-Lead 0.300-Inch Plastic Small Outline Integrated Circuit (SOIC) (S)
Table 15: Plastic Small Outline Integrated Circuit (SOIC) (S) Dimensions
INCHES Min $ % & ' ( ) * + Nom Max Min MILLIMETERS Nom Max
IPU@)
GrhqApyhhvAAirAvuvA#Avpur
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Figure 17: ISD4003 Series Bonding Physical Layout1 (Unpackaged Die)
026, 9TT9! 0,62
6&/.
9889
,17 5$& 9TT6
66 9889! ;&/.
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9TT9
II.
,6'
III. 3DG 2SHQLQJ PLQ [ PLFURQV [ PLOV
9TT6! 9TT6
$8' 287
$1$ ,1r
9886!
$0&$3
$1$ ,1
UurAihpxvqrAsAqvrAvAvrhyyAprprqAAWTTADAHVTUAIPUAirAprprqAAhAurArvhyAAqhhtrA hApp 9iyrAiqArprqrq UuvAsvtrArsyrpAurAprAqvrAuvpxrAQyrhrAphpADT9AhAuvAuvpxrAhApuhtrAvAurAsr
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Table 16: ISD4003 Series Device Pin/Pad Designations, with Respect to Die Center (m)
Pin 9TT6 9TT6 $8' 287 $0&$3 $1$ ,1 r $1$ ,1 9886 9TT6 5$& ,17 ;&/. 9889! 9889 6&/. 66 026, 0,62 9TT9 9TT9!
Pin Name 9TT $QDORJ 3RZHU 6XSSO\ 9TT $QDORJ 3RZHU 6XSSO\ $XGLR 2XWSXW $XWR0XWH ,QYHUWLQJ $QDORJ ,QSXW 1RQLQYHUWLQJ $QDORJ ,QSXW 988 $QDORJ 3RZHU 6XSSO\ 9TT $QDORJ 3RZHU 6XSSO\ 5RZ $GGUHVV &ORFN ,QWHUUXSW ([WHUQDO &ORFN ,QSXW 988 'LJLWDO 3RZHU 6XSSO\ 988 'LJLWDO 3RZHU 6XSSO\ 6ODYH &ORFN 6ODYH 6HOHFW 0DVWHU 2XW 6ODYH ,Q 0DVWHU ,Q 6ODYH 2XW 9TT 'LJLWDO 3RZHU 6XSSO\ 9TT 'LJLWDO 3RZHU 6XSSO\
X Axis r r r r r r r r
Y Axis r r r r r r r
9iyrAiqArprqrq
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Figure 18: ISD4003 Chip Scale Package (CSP) (Z)
&
A B 6 6 A7hyyA8r AihyyAvrqAsApuvAvrhv
C 6# 6" 6!
7#
7"
7!
7
'
8#
8"
8!
8 D
9#
9"
9!
9
@#
@"
@!
@
r
$ $ $
r
E SIDE VIEW
TOP VIEW
BOTTOM VIEW
Table 17:
Symbol $ $ $! E & ' H ) * + ,
CSP Dimensions
Min. s s s s Nom. s s s s s s s s s s Max. s s s s
W
Name
66$
Ball Location
6! 6" 6# 7 7! 7" 7# 8 8! 8" 8# 9 9! 9" 9# @ @! @" @#
TSOP Pin #
' !! !$ & ! !# !% ! I6 I6
6H86Q 6I6DI W
66$
6V9PVU 6I6DIr W W W W W
&&$ 66' 66' &&' 66$
HPTD T8GF Y8GF S68 HDTP TT W
' % !
( & $
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IMPORTANT NOTICES
The warranty for each product of ISD (Information Storage Devices, Inc.), is contained in a written warranty which governs sale and use of such product. Such warranty is contained in the printed terms and conditions under which such product is sold, or in a separate written warranty supplied with the product. Please refer to such written warranty with respect to its applicability to certain applications of such product. These products may be subject to restrictions on use. Please contact ISD, for a list of the current additional restrictions on these products. By purchasing these products, the purchaser of these products agrees to comply with such use restrictions. Please contact ISD for clarification of any restrictions described herein. ISD, reserves the right, without further notice, to change the ISD ChipCorder product specifications and/or information in this document and to improve reliability, functions and design. ISD assumes no responsibility or liability for any use of the ISD ChipCorder products. ISD conveys no license or title, either expressed or implied, under any patent, copyright, or mask work right to the ISD ChipCorder products, and ISD makes no warranties or representations that the ISD ChipCorder products are free from patent, copyright, or mask work right infringement, unless otherwise specified. Application examples and alternative uses of any integrated circuit contained in this publication are for illustration purposes only and ISD makes no representation or warranty that such applications shall be suitable for the use specified. The 100-year retention and 100K record cycle projections are based upon accelerated reliability tests, as published in the ISD Reliability Report, and are neither warranted nor guaranteed by ISD. Information contained in this ISD ChipCorder data sheet supersedes all data for the ISD ChipCorder products published by ISD prior to September, 1998. This data sheet and any future addendum to this data sheet is (are) the complete and controlling ISD ChipCorder product specifications. In the event any inconsistencies exist between the information in this and other product documentation, or in the event that other product documentation contains information in addition to the information in this, the information contained herein supersedes and governs such other information in its entirety. Copyright(c) 1998, ISD (Information Storage Devices, Inc.) All rights reserved. ISD is a registered trademark of ISD. ChipCorder is a trademark of ISD. All other trademarks are properties of their respective owners.
2727 North First Street San Jose, California 95134 Tel: 408/943-6666 Fax: 408/544-1787 Part No. 2200998D4003

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