226 BRE 727 BE i in kos Byte Vz D | ARE . ae HE ki | Rie | He A Bw 6% | tH &2/]P jf lz Vz () Sele \Zzmax | SR |Zzxmax| RE | MRR |lemax| BE OD th O FF fH F Ke is (mW) | (mA)| min typ | max |Iz(mA)} (Q) |Iz(mA)] (2) |Iz(ma)] (87C) | Cw A) | VR () EQBO1~21 Siew 20.1 21.2 |22.3 |10 30 10 0. 08 1 17 261A) EQBO1-22 Biteae| iW 21.3 |22.4 423.5 |10 30 10 0.08 1 18 261A EQBO1-24 Bi Be | 22.4 23.6 |24.8 |10 35 10 9.08 1 19 261A EQB01-25 Biome 23.7 |25.0 [26.3 {10 35 10 0.08 1 20 261A EQB01-26 Siew 25.2 $26.5 [27.8 |10 45 10 0.08 1 22 261A EQB01-28 BLBeR ii 26.6 28.0 |29.4 |10 45 10 0. 08 1 23 261A EQBO1-2R25 | BRE IW 2.15 2.25 [2.35 261A EQB01-30 Biee|iv 28.5 30.0 (31.5 [10 60 10 0.085 1 24 261A QBO1-32 BiLee iv 29.9 31.5 |33.1 |10 80 10 0.085 1 25 261A EQBO1-33 BiMe |W $1.8 133.5 435.2 |10 80 10 0.085 1 27 261A EQB01-35 BiB 33.8 35.5 137.3 110 80 10 0.085 1 28 261A EQB01-3R00 | eta RR IW 2.85 {3.00 [3.15 261A EQBO1-3R75 | ABR Ww 3.55 /3.75 13.95 261A EQBO1-4R50 = | Het PBR 4.25 j4.50 |4.75 261A QB01~50 Bieea ii 45.0 50 55.0 goc EQB11-50 Bt Be | 500 45 55 1.0 0.090 20 35 DOA HE 161A ESBBOL-1R50 | BE RSE) iW 1.40 1.60 |50 8 50 -0. 20 20 |0.2 261A ESBBO1-2R25 | et Bee! iW 2.15 2.35 |50 10 50 -0. 20 20 [0.3 261A ESBBO1~-3R00 | Mt Weel iW 2.85 3.15/50 12 50 -0. 20 20 0.3 261A ESBBO1-3R75 | et ARH 1 3.55 3.95 | 50 15 50 -0. 20 20 {0.5 261A ESBBO1-4R50 4.25 4.75 | 50 15 50 -0, 20 20 10.6 261A GZA2. 0 150 |1.88 |2.0 [2.24 |10 210 10 <-0. 100 120 [0.5 | Vzit a A 100ms CRE, V2HH RK 52 18F GZA2. 2 140 [2.08 |2.2 [2.45 |10 180 10 <-0. 100 120 |0.7 | ztd iB 100ms CMI, V2HH K 532 18F GZAZ. 4 430 |2.28 LA 2.70 410 150 10 <-0. 100 42004 Vz th 100ms CANE, V2 K 52 18F GZA2.7 130 | 2.50 2.7 3.10 {10 150 10 <-0. 100 100 [1 Vztd SK 100ms CAE, Ve K 43 18F GZA3. 0 120 (2.80 {3.0 3.40 /10 150 10 <-0. 095 100 |1 Vz id i BE 100ms CME, V2 K 533 18F GZA3. 3 120 |3,10 3.3 3.70 {10 120 10 <-0. 090 50 1 Vzid SR 100ms CHIE, Vz EK 573 18F GZA3. 6 110 /3,40 3.6 4.00 {10 100 10 <-0.085 20 1 Vz td iB BK 100ms TAI, V2FH EL 5} 3 78F GZA3. 9 100 |3. 70 3.9 4.40 |10 90 10 <-0. 080 10 1 Vztd 8 BEB 100ms CANE, V2HAK 533 18F GZA4. 3 95 |4.00 [4.3 [4.80 |10 80 10 <-0.075 to 1 Vzid 8 BK 100ms CME, V2K 433 18F GZA4.7 90 | 4.40 4.7 .20 |10 70 10 <-0.070 10 1 Vztd ii BK 100ms TALE, V2 4533 18F GZA5S. 1 86 4.8 5.1 5.4 15 50 5 0. 030 1 t Vz td 18 BSR 100ms CAE, V2 R533 18F GZAS. 6 82 (5.3 5.6 16.0 |5 30 5 0.032 1 2 V2 td BE 100ms CHIE, Vz 3 18F GZA6. 2 76 15.8 6.2 6.6 6/5 17 5 0.042 1 3 Vz td Be 100ns CANE, VK 3 18P GZA6. 8 68 [6.4 6.8 7.2 [5 15 5 0.048 1 5 Vzit BK 100ms CAE, V2 K 43 18F GZAT. 5 62/71 7.5 47.9 15 15 5 0.055 1 6 Vz (dB 100ms CAME, V2 33 78F GZA8. 2 56 | 7.7 a2 87 15 20 5 0.060 1 6.5 | Vzth eB 100ns CANE, V2 3 18F GZA9. 1 52 }8.6 $4 9.6 5 20 5 0.065 0.5047 Vz1d BK 100ns CME, V2 493 18F GZA10 46 9.4 10 10.6 |5 25 5 0.070 0.5 [8 Vzidi8 BK 100ms CME, V2HHK 493 18P GZA11 42 |10.4 it 11.6 45 30 5 0.074 0.5 [8.5 |Vzit i BE 100ms TALE, V2HHIX 493 18F GZA12 38 |it.4 112 12.6 [5 30 5 0.077 0.5 49 Vz tt EK 100ns CANE, V2MMX 533 18F GZA13 34 j 12.4 13 14.1 15 35 5 0. 080 0.5 |10 | Vztds EH 100ms CHE, V2MH [X43 78F GZA15 30 (13.9 15 15.6 |5 35 5 0.084 0.5/1 Vz id 38 BH 100ms CAVE, VzHB IX 533 18F GZA16 28 18.4 16 17.1 = 45 40 5 0. 087 0.5 |12 Vz td 18 BK 100ms THANE, V2AHIX 433 18F GZA18 24 (16.9 18 19.1 {5 40 5 0.092 0.5 | 44 2t3 18 BR 100ms CALE, V2 IK 3 T8FBA76 _omax |i sMax-| (4 2b 26 26 MIN ed 1440.2 $.440.1) 28+ 13 1,840.2 0440.07 1,840.2 0.50.07 2.0MAX 1.55MAX 0,540.07 0.40.07 42.0 2.0 MAX 2.0MAX 0.42885 20MIN 2.44+0.3 1.6MAX 4,840.2) 0440.07 [0.50.07 0420.1 28 +2 26MIN [sn 28+2 | +2 1.8MAX 1.35=0,15 0.440. 25MIN 0.47Rhs 26MIN ~ 148 (21 78G | "Max| MAX 1.35207 O.4t0.2 2g+1 1.840.210.446.1) 2941 [+125 MIN} .0MAX~4 -1.bR | 5 4.53~4.95 .31~5,84 ee T~1.01IMA X 4.2MAX 2.0+0.2 2727 | TB - a3} A 38.1 MI Bo _ 4 N|19.0 MIN [12.5 MIN 1,.27MA x [1.27MAX|1.27MAX 25.4 MI N[12.7 MIN|6.35 MIN 84 -OMAX '116.0MAX