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Features Up to 107MHz operation Capacitors 8pF CG and 16pF CD built-in Inverter amplifier feedback resistor built-in TTL input level 16 ma (VDD = 4.5 V) drive capability 4 ma (VDD = 4.5 V) drive capability (AHx) Output three-state function 2.7 to 5.5 V supply voltage Oscillator frequency output 8-pin SOIC package (xxxw) and Die form (xxxde) available Application Used for crystal oscillator Description PT7C 5006 A N A The series are crystal oscillator module ICs, that incorporate high-frequency, low current consumption oscillator and output buffer circuits. Highly accurate feedback resistors and high-frequency capacitors are built-in, eliminating the need for external components to make a stable 3rd-harmonic oscillator. Ordering Information Part no. Package type xxxw SOIC-8 xxxwe Lead free SOIC-8 xxxde DIE Note : Below is the detailed definition of part no. W Device Type Clock series XO 5006 Series N K H AxA AxB AxC AxD AxE AxF BxC BxE CxC CxD CxE DxC DxE AxA AxB AxC AxD BxC CxD DxC AxA AxB AxC AxD Package W: SOIC-8 DE: die form PT0220(03/06) 1 Ver:0

Series Configuration Part No. g m ratio R f (k) Output load (max) (pf) 3V operating Recommended Operating Frequency Rang (MHz) Output load (max) (pf) 5V operating Recommended Operating Frequency Rang (MHz) Output Waveform 2) t r /t f (ns) ANA 0.5 8.2 - - 50 22 to 30 8/8 ANB 1 5.6 - - 50 30 to 40 8/8 ANC 2 4.9 15 22 to 30 50 40 to 60 7/7 Built-in capacitance C G (pf) C D (pf) Input level Output Duty level AND 2 2.6 15 30 to 50 50 50 to 70 7/7 ANE 3 2.6 15 50 to 70 30 15 1) 70 to 100 6/6 ANF 4 2.6 - - 30 15 1) 80 to 107 6/6 CNC 2 4.9 15 22 to 30 15 40 to 60 50 40 to 50 8/8 CND 2 2.6 15 30 to 40 15 50 to 70 8/8 8 16 TTL CMOS CNE 3 2.6 15 50 to 70 15 70 to 100 7/7 BNC 2 No 15 22 to 70 15 22 to 100 50 22 to 70 7/7 BNE 3 No 15 22 to 70 30 15 1) 70 to 107 6/6 DNC 2 No 15 22 to 40 15 22 to 70 50 22 to 50 8/8 DNE 3 No 15 22 to 70 15 22 to 100 50 22 to 70 7/7 AKA 0.5 8.2 - - 15 22 to 30 AKB 1 5.6 - - 15 30 to 40 AKC 2 4.9 - - 15 40 to 60 AKD 2 2.6 - - 15 50 to 70 4/4 8 16 TTL TTL CKD 2 2.6 - - 15 50 to 70 BKC 2 No - - 15 22 to 70 DKC 2 No - - 15 22 to 70 AHA 0.5 8.2 - - 15 22 to 30 AHB 1 5.6 - - 15 30 to 40 AHC 2 4.9 - - 15 40 to 60 7/7 8 16 TTL CMOS AHD 2 2.6 - - 15 50 to 70 1): SOIC package only. 2): 5006xNx: C L = 50pF, CMOS load 5006xKx: C L = 15pF, 10TTL load 5006AHx: C L = 15pF, CMOS load Note: Recommend operating frequency is not the guaranteed value but is measured using PTI s standard crystal. PT0220(03/06) 2 Ver:0

Block Diagram XT V DD V DD VDD GND XT C G R f C D Q V DD INH Pin Configuration xxxw 1 2 3 INH VDD 8 XT NC 7 XT NC 6 4 GND Q 5 SOIC-8 package Pin Description Pin Sym. Type Description 1 INH I Output state control input. High impedance when LOW. Pull-up resistor built in. 2 XT I Amplifier input. 3 XT O Amplifier output. Crystal oscillator connected between XT and XT 4 GND P Ground 5 Q O Output. Output frequency (f o ). 6,7 NC - No connection 8 V DD P Supply voltage PT0220(03/06) 3 Ver:0

Function Description When INH goes LOW, the output on Q becomes high impedance, but internally the oscillator does not stop. INH Oscillator Q High (or open) Normal operation Output f o frequency Low Normal operation High impedance Maximum Ratings Storage Temperature (die form)...- 65 o C to +150 o C Storage Temperature (package form)...- 40 o C to +125 o C Ambient Temperature with Power Applied...- 40 o C to +85 o C Supply Voltage to Ground Potential (V DD to GND...- 0.5V to7.0v Input Voltage (All Inputs except V DD & GND)... -0.5V to V DD +0.5V Output Voltage...-0.5V to V DD +0.5V Output Current (xnx/xkx)... 25mA Output Current (AHx)... 10mA Power Dissipation...200mW (package form) Note: Stresses greater than those listed under MAXIMUM RATINGS may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operational sec-tions of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability. PT0220(03/06) 4 Ver:0

Recommended Operating Conditions series (package form) Sym. Parameter Series Conditions Min Typ Max Unit f 50MHz, C L =50pF 4.5-5.5 ANA, ANB, CNC, CND, DNC f 70MHz, C L =15pF 4.5-5.5 f 40MHz, C L =15pF 2.7-3.6 V f 70MHz, C L =50pF 4.5-5.5 ANC, AND, BNC, f 100MHz, C L =15pF 4.5-5.5 CNE, DNE f 50MHz, C L =15pF 2.7-3.6 V f 70MHz, C L =15pF 3.0-3.6 V DD Supply voltage f 100MHz, C L =15pF 4.5-5.5 ANE, ANF, BNE f 107MHz, C L =15pF 4.5-5.5 f 50MHz, C L =15pF 2.7-3.6 V f 70MHz, C L =15pF 3.0-3.6 AKA, AKB, AKC, CKD,DKC f 70MHz, C L =15pF 4.5-5.5 V AKD, BKC f 70MHz, C L =15pF 4.5-5.5 V AHA, AHB, AHC, AHD f 70MHz, C L =15pF 4.5-5.5 V V IN Input voltage All series GND - V DD V T OPR Operating temperature ANA, ANB, CNC, CND, DNC ANC, AND, BNC, CNE, DNE ANE, ANF, BNE f 50MHz, C L =50pF, 4.5 V DD 5.5-40 - 80 f 70MHz, C L =15pF, 4.5 V DD 5.5 0-70 f 40MHz, C L =15pF, 2.7 V DD 3.6-10 - 70 f 50MHz, C L =50pF,2.7 V DD 5.5-40 - 80 f 70MHz, C L =50pF,4.5 V DD 5.5-20 - 80 f 70MHz, C L =15pF,4.5 V DD 5.5-40 - 85 f 100MHz, C L =15pF, 4.5 V DD 5.5 0-70 f 50MHz, C L =15pF,2.7 V DD 3.6-20 - 80 f 70MHz, C L =15pF,3.0 V DD 3.6-20 - 80 f 70MHz, C L =50pF,4.5 V DD 5.5-20 - 80 f 100MHz, C L =15pF,4.5 V DD 5.5-40 - 85 f 107MHz, C L =15pF,4.5 V DD 5.5-20 - 80 f 50MHz, C L =15pF,2.7 V DD 3.6-20 - 80 f 70MHz, C L =15pF,3.0 V DD 3.6-20 - 80 AKA, AKB, AKC, f 50MHz, C L =15pF,4.5 V DD 5.5-40 - 85 CKD, DKC f 70MHz, C L =15pF,4.5 V DD 5.5 0-70 AKD, BKC f 50MHz, C L =15pF,4.5 V DD 5.5-40 - 85 f 70MHz, C L =15pF,4.5 V DD 5.5-20 - 80 AHA, AHB, AHC, f 50MHz, C L =15pF,4.5 V DD 5.5-40 - 85 AHD f 70MHz, C L =15pF,4.5 V DD 5.5-15 - 75 PT0220(03/06) 5 Ver:0

series (die form) Sym. Parameter Series Condition Min Typ Max Unit f 50MHz, C L =50pF 4.5-5.5 ANA, ANB, CNC, CND, DNC f 70MHz, C L =15pF 4.5-5.5 f 40MHz, C L =15pF 2.7-3.6 V f 70MHz, C L =50pF 4.5-5.5 ANC, AND, BNC, f 100MHz, C L =15pF 4.5-5.5 CNE, DNE f 50MHz, C L =15pF 2.7-3.6 V f 70MHz, C L =15pF 3.0-3.6 V DD Supply voltage f 100MHz, C L =15pF 4.5-5.5 ANE, ANF, BNE f 7MHz, C L =15pF 4.5-5.5 f 50MHz, C L =15pF 2.7-3.6 V f 70MHz, C L =15pF 3.0-3.6 AKA, AKB, AKC, CKD,DKC f 70MHz, C L =15pF 4.5-5.5 V AKD, BKC f 70MHz, C L =15pF 4.5-5.5 V AHA, AHB, AHC, AHD f 70MHz, C L =15pF 4.5-5.5 V V IN Input voltage All series GND - V DD V T OPR Operating temperature ANA, ANB, CNC, CND, DNC ANC, AND, BNC, CNE, DNE ANE, ANF, BNE f 50MHz, C L =50pF, 4.5 V DD 5.5-40 - 80 f 70MHz, C L =15pF, 4.5 V DD 5.5-15 - 75 f 40MHz, C L =15pF, 2.7 V DD 3.6-10 - 70 f 70MHz, C L =50pF,4.5V DD 5.5-40 - 85 f 100MHz, C L =15pF, 4.5 V DD 5.5-20 - 80 f 50MHz, C L =15pF,2.7 V DD 3.6-20 - 80 f 70MHz, C L =15pF,2.7 V DD 3.6-20 - 80 f 70MHz, C L =50pF,4.5 V DD 5.5-40 - 85 f 100MHz, C L =30pF,4.5 V DD 5.5-40 - 85 f 107MHz, C L =30pF,4.5 V DD 5.5-20 - 80 f 50MHz, C L =15pF,2.7 V DD 3.6-20 - 80 f 70MHz, C L =15pF,3.0 V DD 3.6-20 - 80 AKA, AKB, AKC, f 50MHz, C L =15pF,4.5 V DD 5.5-40 - 85 CKD, DKC f 70MHz, C L =15pF,4.5 V DD 5.5-15 - 75 AKD, BKC f 50MHz, C L =15pF,4.5 V DD 5.5-40 - 85 f 70MHz, C L =15pF,4.5 V DD 5.5-20 - 80 AHA, AHB, AHC, f 50MHz, C L =15pF,4.5 V DD 5.5-40 - 85 AHD f 70MHz, C L =15pF,4.5 V DD 5.5-20 - 80 PT0220(03/06) 6 Ver:0

DC Electrical Characteristics N series 3V operation: V DD = 2.7 to 3.6V, T A = -20 to 80C unless otherwise noted. Sym. Parameter Condition Min Typ Max Unit f =30MHz f =30MHz, T A = -10 to 70 ANC BNC - 8 16 CNC - 8 16 I DD Current consumption INH =open, Load cct 1, V DD =3.0 to 3.6V, C L =15pF f =50MHz AND - 13 26 f =70MHz f =40MHz, T A = -10 to 70 BNE CNE DNE CND DNC - 15 30-11 22 ma f =70MHz ANE ANF - 20 40 V IH High-level input voltage INH 2.0 - - V V IL Low-level input voltage INH - - 0.5 V R up INH pull-up resistance Measurement cct 4 50-150 k R f Feedback resistance Measurement cct 5 ANA 6.97 8.2 9.43 ANB 4.76 5.6 6.44 ANC, CNC 4.16 4.9 5.64 AND, ANE, ANF, CND, 2.21 2.6 2.99 CNE C G Design value, determined by the value internal pattern 7.44 8 8.56 Built-in capacitance Design value, determined by the value internal pattern 14.88 16 17.12 C D V OH High-level output voltage Q: Measurement cct 1, V DD =2.7V, I OH =8mA 2.2 2.4 - V V OL Low-level output voltage Q: Measurement cct 2, V DD =2.7V, I OL =8mA - 0.3 0.4 V I Z Output leakage current Q: Measurement cct 2, INH=LOW, V OH = V DD - - 10 V DD = 5.5V V OL = GND - - 10 k pf μa PT0220(03/06) 7 Ver:0

N series 5V operation: V DD = 4.5 to 5.5V, T A = -40 to 85 unless otherwise noted. Sym. Parameter Condition Min Typ Max Unit f = 30MHz ANA - 18 35 I DD Current consumption INH =open, Measurement cct 3, Load cct 1, V DD =4.5 to 5.5V, C L =50pF INH =open, Measurement cct 3, Load cct 1, V DD =4.5 to 5.5V f = 40MHz, ANB - 20 40 f = 60MHz ANCDE - 30 60 f = 60MHz, T A = -20 to 80 ANCW - 30 50 f = 70MHz ANDDE BNCDE - 40 80 f =70MHz, ANDW T A = -20 to 80 BNCW - 40 70 f =60MHz, C L =15pF T A = -15 to 75 CNCDE - 28 50 f =60MHz, C =15pF L T A = 0 to 70 CNCW - 28 50 L T A = -15 to 75 f = 70MHz, C =15pF CNDDE DNCDE - 35 65 f =70MHz, C L =15pF CNDW T A = 0 to 70 DNCW - 35 65 f = 100MHz, C L =15pF CNEDE T A = -20 to 80 DNEDE - 45 80 f = 100MHz, C L =15pF CNEW T A = 0 to 70 DNEW - 45 80 f = 100MHz, C L =30pF ANEDE - 50 100 f =100MHz, C L =15pF ANEW - 45 90 f =107MHz, C L =30pF T A = -20 to 80 ANFDE BNEDE - 60 100 f =107MHz, C L =15pF ANFW T A = -20 to 80 BNEW - 50 90 V IH High-level input voltage INH 2.0 - - V V IL Low-level input voltage INH - - 0.8 V R up INH pull-up resistance Measurement cct 4 50-150 k ANA 6.97 8.2 9.43 ANB 4.76 5.6 6.44 R ANC, CNC 4.16 4.9 5.64 f Feedback resistance Measurement cct 5 AND, ANES, k ANF, CND, CNE 2.21 2.6 2.99 C G Design value, determined by the value internal pattern 7.44 8 8.56 Built-in capacitance C D Design value, determined by the value internal pattern 14.88 16 17.12 pf V OH High-level output voltage Q: Measurement cct 1, V DD =4.5V,I OH =16mA 4.0 4.2 - V V OL Low-level output voltage Q: Measurement cct 2, V DD =4.5V,I OL =16mA - 0.3 0.4 V I Z Output leakage current Q: Measurement cct 2, INH=LOW, V OH = V DD - - 10 V DD =5.5V V OL = GND - - 10 μa ma PT0220(03/06) 8 Ver:0

K series V DD = 4.5 to 5.5V, T A = -40 to 85C unless otherwise noted. Sym. Parameter Condition Min Typ Max Unit I DD Current consumption INH = open, Load cct 1, V DD = 4.5 to 5.5V, C L =15pF f =30MHz AKA - 16 32 f =40MHz AKB - 18 36 f = 60MHz, AKCDE T A = -15 to 75 DKCDE f =60MHz, T A = 0 to 70 f =70MHz, T A = -20 to 80 f =70MHz, T A = -15 to 75 f = 70MHz, T A = 0 to 70 AKCW DKCW AKDDE BKCDE - 25 50-25 50-35 70 CKDDE - 35 70 AKDW BKCW CKDW - 35 70 V IH High-level input voltage INH 2.0 - - V V IL Low-level input voltage INH - - 0.8 V R up INH pull-up resistance Measurement cct 4 50-150 k R f Feedback resistance Measurement cct 5 AKA 6.97 8.2 9.43 AKB 4.76 5.6 6.44 AKC 4.16 4.9 5.64 AKD, CKD 2.21 2.6 2.99 C G Design value, determined by the value internal pattern 7.44 8 8.56 Built-in capacitance Design value, determined by the value internal pattern 14.88 16 17.12 C D V OH High-level output voltage Q: Measurement cct 1, V DD =4.5V, I OH =16mA AKA, AKB AKC, CKD, DKC 3.9 4.2 - AKD, BKC 4.0 4.2 - V OL Low-level output voltage Q: Measurement cct 2, V DD = 4.5V, I OL = 16mA - 0.3 0.4 V I Z Output leakage current Q: Measurement cct 2, INH=LOW, V OH = V DD - - 10 V DD = 5.5V V OL = V SS - - 10 ma k pf V μa PT0220(03/06) 9 Ver:0

AH series V DD = 4.5 to 5.5V, T A = -40 to 85C unless otherwise noted. Sym. Parameter Condition Min Typ Max Unit I DD Current consumption INH=open, Load cct 1, V DD = 4.5 to 5.5V, C L = 15pF f = 30MHz AHA - 15 30 f = 40MHz, AHB - 18 36 f = 60MHz, T A =-20 to 80 f = 60MHz, T A = -15 to 75 f = 70MHz, T A = -20 to 80 f =70MHz, T A = -15 to 75 AHCDE - 25 50 AHCW - 25 50 AHDDE - 32 65 AHDW - 32 65 V IH High-level input voltage INH 2.0 - - V V IL Low-level input voltage INH - - 0.8 V R up INH pull-up resistance Measurement cct 4 50-150 k R f Feedback resistance Measurement cct 5 AHA 6.97 8.2 9.43 AHB 4.76 5.6 6.44 AHC 4.16 4.9 5.64 AHD 2.21 2.6 2.99 C G Design value, determined by the value internal pattern 7.44 8 8.56 Built-in capacitance Design value, determined by the value internal pattern 14.88 16 17.12 C D V OH High-level output voltage Q: Measurement cct 1, V DD = 4.5V,I OH = 4mA 3.9 4.2 - V V OL Low-level output voltage Q: Measurement cct 2, V DD = 4.5V,I OL = 4mA - 0.3 0.5 V I Z Output leakage current Q: Measurement cct 2, INH = LOW, V OH = V DD - - 10 V DD =5.5V V OL = GND - - 10 ma k pf μa PT0220(03/06) 10 Ver:0

AC Electrical Characteristics Output duty level (CMOS) Data Sheet Output duty level (TTL) Output duty cycle (CMOS) Output duty cycle (TTL) PT0220(03/06) 11 Ver:0

N series 3V operation: V DD = 2.7 to 3.6V, T A = -20 to 80C, unless otherwise noted. Sym. Parameter Condition Min Typ Max Unit t r Output rise time Load cct 1, 0.1V DD to 0.9V DD, C L = 15pF T A = -10 to 70 ANA, ANB, CNC, CND, DNC ANC, AND, ANE, ANF, BNC, BNE, CNE, DNE - 3.5 7.0-3.5 7.0 ns t f Output fall time Load cct 1, 0.9V DD to 0.1V DD, C L = 15pF T A = -10 to 70 ANA, ANB, CNC, CND, DNC ANC, AND, ANE, ANF, BNC, BNE, CNE, DNE - 3.5 7.0-3.5 7.0 ns f = 30MHz ANA, ANB, ANC, CNC 40-60 Duty Output duty cycle*1 Load cct 1, T A = 25, V DD = 3.3V, C L = 15pF f = 40MHz f = 50MHz CND, DNC 40-60 AND, BNC 40-60 % f = 70MHz ANE, ANF, BNE, CNE, DNE 40-60 t PLZ Output disable delay time - - 100 ns Load cct 1, T A = 25, V DD = 5V, C L 15pF t PZL Output enable delay time - - 100 ns PT0220(03/06) 12 Ver:0

N series 5V operation: V DD = 4.5 to 5.5V, T A = -40 to 85 unless otherwise noted. Sym. Parameter Condition Min Typ Max Unit t r Output rise time Load cct 1, 0.1V DD to 0.9V DD C L = 15pF C L = 30pF C L = 50pF C L = 15pF ANA, ANB, CNC, CND, DNC ANC, AND, BNC, CNE, DNE ANEDE, ANFDE, BNEDE ANA, ANB, CNC, CND, DNC ANC, AND, BNC, CNE, DNE ANE, ANF, BNE ANA, ANB, CNC, CND, DNC ANC, AND, BNC, CNE, DNE - 2.0 4.0-1.5 3.0-2.0 4.0-4.0 8.0-3.5 7.0-3.0 6.0-2.0 4.0-1.5 3.0 ns t f Output fall time Load cct 1, 0.9V DD to 0.1V DD C L = 30pF ANEDE, ANFDE, BNEDE ANA, ANB, CNC, CND, DNC - 2.0 4.0-4.0 8.0 ns C L = 50pF ANC, AND, BNC, CNE, DNE - 3.5 7.0 -- to be continued -- ANE, ANF, BNE - 3.0 6.0 PT0220(03/06) 13 Ver:0

-- to be continued -- Sym. Parameter Condition Min Typ Max Unit f =30MHz, C L =50pF ANA 45-55 f =40MHz, C L =50pF ANB 45-55 f =60MHz, C L =50pF ANC 45-55 f =70MHz, C L =50pF AND, BNC 45-55 f =100MHz, C L =30pF ANEDE 45-55 Duty Output duty cycle Load cct 1, T A =25, V DD =5.0V f =100MHz, C L =15pF ANEW 45-55 f =107MHz, C L =30pF f =107MHz, C L =15pF f =50MHz, C L =50pF ANFDE BNEDE ANFW BNEW CNC DNC 45-55 45-55 45-55 % f =100MHz, C L =15pF CNE DNE 45-55 f =60MHz, C L =15pF CNC 40-60 t PLZ t PZL Output disable delay time Output enable delay time f =70MHz, C L =15pF CND DNC Load cct 1, T A = 25, V DD = 5V, C L 15pF 40-60 - - 100 ns - - 100 ns PT0220(03/06) 14 Ver:0

K series 5V operation: V DD = 4.5 to 5.5V, T A = -40 to 85 unless otherwise noted. Sym. Parameter Condition Min Typ Max Unit t r t f Output rise time Output fall time Duty Output duty cycle Load cct 1, C L =15pF - 2 4 0.4V to 2.4V,V DD = 4.5 to 5.5V C L =50pF - - 7 Load cct1, C L =15pF - 2 4 2.4V to 0.4V,V DD = 4.5 to 5.5V C L =50pF - - 7 Load cct 1, T A =25, V DD =5.0V, C L =15pF f =30MHz AKA 45-55 f =40MHz AKB 45-55 f =60MHz AKC 40-60 f =70MHz AKD BKC 45-55 f =50MHz DKC 45-55 f =70MHz CKD DKC 40-60 t PLZ Output disable delay time Load cct 1, T A = 25, - - 100 ns t PZL Output enable delay time V DD = 5V,C L 15PF - - 100 ns ns ns % AH series V DD = 4.5 to 5.5V, T A = -40 to 85 unless otherwise noted. Sym. Parameter Condition Min Typ Max Unit t r Load cct 1, C L =15pF - 5.0 7.0 Output rise time ns 0.1 V DD to 0.9V DD C L =50pF - 13 21 t f Output fall time Load cct 1, C L =15pF - 5.0 7.0 0.9 V DD to 0.1V DD C L =50pF - 13 21 ns f =30MHz AHA 45-55 f =40MHz AHB 45-55 f =50MHz AHC 45-55 Load cct 1, T A =25, f =60MHz AHCDE 40-60 Duty Output duty cycle *1 V DD =5.0V, T A =-20 to 80 % C L =15pF f =60MHz AHCW T A =-15 to 75 40-60 f =70MHz AHDDE T A =-20 to 80 40-60 f =70MHz AHDW T A =-15 to 75 40-60 t PLZ Output disable delay time Load cct 1, T A = 25, - - 100 ns t PZL Output enable delay time V DD = 5V, C L 15PF - - 100 ns PT0220(03/06) 15 Ver:0

Measurement Circuit Measurement cct 1 Measurement cct 3 3.5V P-P, 10MHz sine wave input signal (5V operation) 2.0V P-P, 10MHz sine wave input signal (3V operation) C1: 0.001μF R1: 50 R2: 250 (5006 N /5V operation) 275 (5006 N /3V operation) 245 (5006AKA, AKB, AKC, CKD, DKC) 250 (5006AKD, BKC) 975 (5006AH ) R fo : 2.7k (5006B, D ) R fo : 2.7k (5006B, D) Measurement cct 4 Measurement cct 2 Measurement cct 5 Load cct 1 Load cct 2 PT0220(03/06) 16 Ver:0

Mechanical Information W/WE (SOIC-8) Data Sheet 8.149.157 3.78 3.99.0099.0196 0.25 0.50 x 45 o 1 0-8 o.0075.0098 0.19 0.25.189.196 4.80 5.00 0.40 1.27.2284.2440.016.050.016.026 0.406 0.660 REF.053.068 1.35 1.75 SEATING PLANE 5.80 6.20.050 BSC 1.27.013.020 0.330 0.508.0040.0098 0.10 0.25 X.XX X.XX DENOTES DIMENSIONS IN MILLIMETERS Note: 1) Controlling dimensions in millimeters. 2) Ref: JEDEC MS-012 AA PT0220(03/06) 17 Ver:0

Pad Location of Sensor INH VDD Die No. XT XT Q GND Pad Coordinate File Pad Name X Coordinate Y Coordinate Pad Name X Coordinate Y Coordinate sensor -50 850.00 GND 184.20 112.80 INH 184.20 687.10 VDD 815.20 542.00 XT 184.20 497.10 Q 815.20 159.00 XT 184.20 302.80 Note: Substrate is connected to GND or VDD or floating. Die Size: 950m*800m (Including scribe line size.) Die Thickness: 26525m Pad Size: 100m*100m PT0220(03/06) 18 Ver:0

Notes Data Sheet Pericom Technology Inc. Email: support@pti.com.cn Web Site: www.pti.com.cn, www.pti-ic.com China: Asia Pacific: U.S.A.: No. 20 Building, 3/F, 481 Guiping Road, Shanghai, 200233, China Tel: (86)-21-6485 0576 Fax: (86)-21-6485 2181 Unit 1517, 15/F, Chevalier Commercial Centre, 8 Wang Hoi Rd, Kowloon Bay, Hongkong Tel: (852)-2243 3660 Fax: (852)- 2243 3667 3545 North First Street, San Jose, California 95134, USA Tel: (1)-408-435 0800 Fax: (1)-408-435 1100 Pericom Technology Incorporation reserves the right to make changes to its products or specifications at any time, without notice, in order to improve design or performance and to supply the best possible product. Pericom Technology does not assume any responsibility for use of any circuitry described other than the circuitry embodied in Pericom Technology product. The company makes no representations that circuitry described herein is free from patent infringement or other rights, of Pericom Technology Incorporation. PT0220(03/06) 19 Ver:0

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