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3(386653ｨｪｨｨ. ｨﾂｨ 56 ｪ /) 564ｨｨｪｨｨｨｨｪｨ 56694 PSPISE-ｨｬ65ｨｦ 8ｨｨｨ655ｨｬｨｪｨｰ69 9ｨｨ76578ｨｪ4 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ684 3ｨ 9768ｨｰｨｪ4 ｨｨｪｨｪ4 ｨｨｨ76578ｨｪ66 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ68ｨ, ｨｺ6ｨｰ684 996ｨｨｨｰ 765ｨｹ469ｨｨｰ5ｨｹ, ｨｨ 97ｨｨ96ｨｺ 6 ｨｬｨｨｰｨｬｨｨｰｨｨﾂ9ｨｺ6ｨｦｨｬ65ｨｨ, ｨｺ6ｨｰ684 8ｨ 99 ﾂｨｨｨｰ49ｨ 6ｨｰ97 76 7868ｨｨｬｨｬ, 78ｨｨ9ｨｪ4 9 ｨｰｨｨ 5. 3. 5ｨｰｨｨｰｨｨﾂ9ｨｺｨｨｨｨｨｪｨｮｨｨ869ｨｨｪｨｪ4 ｨｨｨ76578ｨｪ4 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ684 3ｨ 9768ｨｰｨｪ4 ｨｨｪｨｪ4 9ｨｰｨｨｰｨｨﾂ9ｨｺｨｨｨｨｨｪｨｮｨｨ869ｨｨｪｨｪ66 ｨｨｨ76578ｨｪ66 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ68ｨ, 996ｨｨｨｬ4 765ｨｹ469ｨｨｰ5ｨｬ, ｨｨ 97ｨｨ96ｨｺ 6 ｨｬｨｨｰｨｬｨｨｰｨｨﾂ9ｨｺ6ｨｦｨｬ65ｨｨ, ｨｺ6ｨｰ684 8ｨ 9ｨｰ8ｨｰｨｹ6 ｨｮ869ｨｪ7 (Level=3), ｨｺ6ｨｰ684 8ｨ 99 ﾂｨｨｨｰ49ｨ 6ｨｰ97 76 7868ｨｨｬｨｬ, 78ｨｨ9ｨｪ4 9 ｨｰｨｨ 5. 6. 4ｨ 9 ﾂｨｰ 7ｨ 8ｨｨｬｨｰ869 ｨｬｨｨｰｨｬｨｨｰｨｨﾂ9ｨｺｨｨｨｬ65ｨｦ 6ｨｰﾂ9ｨｰ9ｨｪｨｪ4 ｨｬ65ｨｦ 3ｨｰ8ｨｨｪ4ｨｨ9ｨｰ6869 9 76ｨｬ6ｨｴｨｹ6 7868ｨｨｬｨｬ4 PSPICE MODEL EDITOR ｨｪ9ｨｺ65ｨｹｨｺ6 4ｨｨｰ8ｨｮｨｪｨｪｨｨ4-4ｨｨｰ66, ﾂｨｰ6 9 7ｨ 9768ｨｰｨｪ4 ｨｪ 78ｨｨ967ｨｰ97 4ｨｪｨﾂｨｪｨｨ7 4ｨ 8769 Qg, Qgs. 6ｨｨ 5ｨｨｨ 3. 9ｨｨ76578ｨｪ4 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ684, Vbe Vbe(sat) Voltage (ｨｪｨ 7873ｨｪｨｨｨｪｨ 94ｨｴｨｪｨｨ7 ｨｨ 4ｨ -5ｨｬｨｨｨｰｨｰ8) 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹｨｪｨ 7873ｨｪｨｨ7 ｨｪｨ 94ｨｴｨｪｨｨ7 ｨｨ 4ｨ -5ｨｬｨｨｨｰｨｰ8 Vbe 6ｨｰｨｰ6ｨｺｨｨｺ655ｨｺｨｰ68ｨｨｰｨｪ63ｨｪｨｨｨｰ6ｨｺｨｨｺ655ｨｺｨｰ68ｨｨｺｨｰ6ｨｺｨｮｨｨ 44 9 83ｨｨｨｬｨｪｨ 94ｨｴｨｪｨｨ7 /Ib= Output Admintance (946ｨｪｨ 7 78696ｨｨｨｬ69ｨｰｨｹ) IS RB ｨC4, hoe Vce, hfe, Vce 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 946ｨｪ6ｨｦ 78696ｨｨｨｬ69ｨｰｨｨ 78ｨｨ 6569ｨｰ6ｨｬ 6 ｨｪｨ 946 hoe 6ｨｰｨｰ6ｨｺｨｨｺ655ｨｺｨｰ68ｨ 5ｨｬｨｴｨｪｨｨｨｺ655ｨｺｨｰ68-5ｨｬｨｨｨｰｨｰ8 Vce=5 B Forward DC Beta (9ｨｰｨｨｰｨｨﾂ9ｨｺｨｨｨｦｨｺ65ｨｨｨｨｨｪｨｰ 78ｨﾂｨｨ 76 ｨｰ6ｨｺｨｮ) 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 9ｨｰｨｨｰｨｨﾂ9ｨｺ66 ｨｺ65ｨｨｨｨｨｪｨｰｨｨｮ9ｨｨ5ｨｪｨｨ7 ｨｰ6ｨｺｨ 9 9ｨｬ 6 9 ｨｪ68ｨｬｨ 5ｨｹｨｪ6ｨｬ 83ｨｨｨｬ hfe 6ｨｰｨｰ6ｨｺｨｨｺ655ｨｺｨｰ68ｨ 64ｨｬ8ｨｪｨｨ7 78696ｨｨ5ｨｨ9ｨｹ 78ｨｨ 9ｨｬｨｴｨｪｨｨｨｨｨｺ655ｨｺｨｰ68-5ｨｬｨｨｨｰｨｰ8 Vce= B Vce(sat) Voltage (ｨｪｨ 7873ｨｪｨｨｨｪｨ 94ｨｴｨｪｨｨ7 ｨｺ655ｨｺｨｰ68-5ｨｬｨｨｨｰｨｰ8) 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹｨｪｨ 7873ｨｪｨｨ7 ｨｪｨ 94ｨｴｨｪｨｨ7 ｨｺ655ｨｺｨｰ68-5ｨｬｨｨｨｰｨｰ8 Vce 6ｨｰｨｰ6ｨｺｨｨｺ655ｨｺｨｰ68ｨｨｰｨｪ63ｨｪｨｨｨｰ6ｨｺｨｨｺ655ｨｺｨｰ68ｨｨｺｨｰ6ｨｺｨｮｨｨ 44 9 83ｨｨｨｬｨｪｨ 94ｨｴｨｪｨｨ7 /Ib= C-B Capacitance (ｨｨ 8ｨｹ8ｨｪｨ 7 ｨｬｨｺ69ｨｰｨｹｨｺ655ｨｺｨｰ68-ｨｨ 4ｨ ) VAF BF NE ISE XTB NK BR NC ISC IKR RC B,5,5 Vcb Cobo 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 946ｨｪ6ｨｦｨｬｨｺ69ｨｰｨｨ Cobo 9 83ｨｨｨｬ 6569ｨｰ66 6ｨｨｪｨ 946 6ｨｰｨｪｨ 7873ｨｪｨｨ7 6ｨ 8ｨｨｰｨｪ66 9ｨｬｨｴｨｪｨｨ7 ｨｺ655ｨｺｨｰ68-ｨｨ 4ｨ Vc E-B Capacitance (ｨｨ 8ｨｹ8ｨｪｨ 7 ｨｬｨｺ69ｨｰｨｹ 5ｨｬｨｨｨｰｨｰ8-ｨｨ 4ｨ ) CJC VJC MJC FC 78,75 B,33 Veb, Cibo, ts 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 96ｨｪ6ｨｦｨｬｨｺ69ｨｰｨｨ Cibo 9 83ｨｨｨｬ 6569ｨｰ66 6ｨｨｪｨ 946 6ｨｰｨｪｨ 7873ｨｪｨｨ7 6ｨ 8ｨｨｰｨｪ66 9ｨｬｨｴｨｪｨｨ7 5ｨｬｨｨｨｰｨｰ88-ｨｨ 4ｨ Veb Storage Time (98ｨｬ7 8ｨ 99ｨ 949ｨｨｪｨｨ7 4ｨ 87ｨ ) 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 98ｨｬｨｪｨｨ 8ｨ 99ｨ 949ｨｨｪｨｨ7 ts 6ｨｰｨｰ6ｨｺｨｨｺ655ｨｺｨｰ68ｨｨｰｨｪ63ｨｪｨｨｨｰ6ｨｺｨｨｺ655ｨｺｨｰ68ｨｨｺｨｰ6ｨｺｨｮｨｨ 44 9 83ｨｨｨｬｨｪｨ 94ｨｴｨｪｨｨ7 /Ib= CJE VJE MJE TR 78,75 B,33 ｨｪ9, ft Gain Bandwidth (756ｨｴｨｨｹｨｮ9ｨｨ5ｨｪｨｨ7) 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 8ｨｨｪｨｨﾂｨｪ6ｨｦﾂｨ 9ｨｰ6ｨｰ4 ｨｺ65ｨｨｨｨｨｪｨｰｨ 78ｨﾂｨｨｨｰ6ｨｺｨ ft 9 9ｨｬ 6 6ｨｰｨｰ6ｨｺｨｨｺ655ｨｺｨｰ68ｨ. 5ｨｬｨｴｨｪｨｨｨｺ655ｨｺｨｰ68-5ｨｬｨｨｨｰ8 Vce= B TF XTF VTF ITF ｨｪ9 B B 36594 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ684 3ｨ 9768ｨｰｨｪ4 ｨｨｪｨｪ4 765966 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ68ｨ (J 7ET N-, P-CHANNEL), ｨｺ6ｨｰ684 996ｨｨｨｰ 765ｨｹ469ｨｨｰ5ｨｹ, ｨｨ 97ｨｨ96ｨｺ 6 ｨｬｨｨｰｨｬｨｨｰｨｨﾂ9ｨｺ6ｨｦｨｬ65ｨｨ, ｨｺ6ｨｰ684 8ｨ 99 ﾂｨｨｨｰ49ｨ 6ｨｰ97 76 7868ｨｨｬｨｬ, 78ｨｨ9ｨｪ4 9 ｨｰｨｨ 5. 4. 78ｨｨｨ6ｨｪｨｪ4 ｨｮ9ｨｨ5ｨｨｨｰ5ｨｨ 3ｨ 9768ｨｰｨｪ4 ｨｨｪｨｪ4 678ｨｨｨ6ｨｪｨｪ66 ｨｮ9ｨｨ5ｨｨｨｰ57, ｨｺ6ｨｰ684 996ｨｨｨｰ 765ｨｹ469 ﾂｨｨｨｰ49ｨ 6ｨｰ97 76 7868ｨｨｬｨｬ, 78ｨｨ9ｨｪ4 9 ｨｰｨｨ 5. 5. 6ｨｴｨｪ4 3 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ684 3ｨ 9768ｨｰｨｪ4 ｨｨｪｨｪ4 ｨｬ6ｨｴｨｪ66 3 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ68ｨ (POWER, MOS 7ET, NMOS, PMOS), ｨｺ6ｨｰ684 996ｨｨｨｰ 765ｨｹ469ｨｨｰ5ｨｹ, ｨｨ 97ｨｨ96ｨｺ 6 ｨｬｨｨｰｨｬｨｨｰｨｨﾂ9ｨｺｨｨｨｬ65ｨｦ 9ｨｨｰ5ｨｹ, ｨｨ 97ｨｨ96ｨｺ 7ｨ 8ｨｨｬｨｰ869 6 ｨｬｨｨｰｨｬｨｨｰｨｨﾂ9ｨｺ6ｨｦｨｬ65ｨｨ, ｨｺ6ｨｰ684 8ｨ 99 ﾂｨｨｨｰ49ｨ 6ｨｰ97 76 7868ｨｨｬｨｬ, 78ｨｨ9ｨｪ4 9 ｨｰｨｨ 5. 7. 3695 94ｨ 68ｨ 9 ｨｪｨﾂｨ 5ｨｹｨｪ6ｨｬｨｬｨｪ6 7868ｨｨｬｨｬ4 PSPICE MODEL EDITOR 83ｨｨｨｬｨ OPAMP ｨｪ6ｨ 6ｨｨｨｬ6 76 4ｨ 7869ｨｮ 7868ｨｨｬｨｬ4 ｨｮｨｺｨ 4ｨｨｰｨｹｨｰｨｨ7 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ68ｨｪ6-

36ｨｨ 5ｨｨｨ 4. 36594 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ684 Transconductance (78ｨｨｰ6 ﾂｨｪｨ 7 78696ｨｨｨｬ69ｨｰｨｹ) 5ｨｪｨﾂｨｪｨｨ 76. Id, gfs 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 78696ｨｨｨｬ69ｨｰｨｨ 787ｨｬ6ｨｦ 78ｨﾂｨｨ gfs 6ｨｰｨｰ6ｨｺｨ 9ｨｰ6ｨｺｨ Id BETA, RS RD ｨｬｨｬ Output Conductance (946ｨｪｨ 7 78696ｨｨｨｬ69ｨｰｨｹ) Id, 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 946ｨｪ6ｨｦ 78696ｨｨｨｬ69ｨｰｨｨ gos 6ｨｰｨｰ6ｨｺｨ 9ｨｰ6ｨｺｨ Id LAMBDA ｨC6 Transfer Curve (7866ｨｪｨ 7 ｨ 8ｨｨｺｨｰ8ｨｨ9ｨｰｨｨｨｺｨ ) Vgs, Id 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹｨｰ6ｨｺｨ 9ｨｰ6ｨｺｨ Id 6ｨｰ 9ｨｬｨｴｨｪｨｨ7 4ｨｨｰ968-ｨｨ9ｨｰ6ｨｺ Vgs VTO ｨC B Vds 5ｨｬｨｴｨｪｨｨ 9ｨｰ6ｨｺ-ｨｨ9ｨｰ6ｨｺ VTOTC ｨC,5 Reverse Transfer Capacitance (7866ｨｪｨ 7 ｨｬｨｺ69ｨｰｨｹ) Vgs, Crss Vds 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 7866ｨｪ6ｨｦｨｬｨｺ69ｨｰｨｨ Crss 6ｨｰ 9ｨｬｨｴｨｪｨｨ7 4ｨｨｰ968-ｨｨ9ｨｰ6ｨｺ Vgs 5ｨｬｨｴｨｪｨｨ 9ｨｰ6ｨｺ-ｨｨ9ｨｰ6ｨｺ Input Capacitance (96ｨｪｨ 7 ｨｬｨｺ69ｨｰｨｹ) Vgs, Ciss 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 96ｨｪ6ｨｦｨｬｨｺ69ｨｰｨｨ Ciss 6ｨｰ 9ｨｬｨｴｨｪｨｨ7 4ｨｨｰ968-ｨｨ9ｨｰ6ｨｺ Vgs CGS 78 Vds 5ｨｬｨｴｨｪｨｨ 9ｨｰ6ｨｺ-ｨｨ9ｨｰ6ｨｺ Passive Gate Leakage (ｨｰ6ｨｺｨｮｨｰﾂｨｺｨｨ 4ｨｨｰ968ｨ 9 7ｨ 99ｨｨ9ｨｪ6ｨｬ 83ｨｨｨｬ) Vdg, Igss 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹｨｰ6ｨｺｨｨｮｨｰﾂｨｺｨｨ 4ｨｨｰ968ｨ Igss 6ｨｰ 9ｨｬｨｴｨｪｨｨ7 9ｨｰ6ｨｺ-4ｨｨｰ968 Vdg CGD M PB FC IS ISR N NR XTI 78 ｨC4 A 3 Vdg, Ig Id Freg, en Id Acive Gate Leakage ( ｨｰ6ｨｺｨｮｨｰﾂｨｺｨｨ 4ｨｨｰ968ｨ 9 ｨｨｺｨｰｨｨ9ｨｪ6ｨｬ 83ｨｨｨｬ) 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹｨｰ6ｨｺｨｨｮｨｰﾂｨｺｨｨ 4ｨｨｰ968ｨ Ig 6ｨｰ 9ｨｬｨｴｨｪｨｨ7 9ｨｰ6ｨｺ-4ｨｨｰ968 Vdg 66ｨｺ 9ｨｰ6ｨｺｨ. Noise Voltage (ｨｮ869ｨｪｨｹ 9ｨｪｨｮｨｰ8ｨｪｨｪ6 3ｨｮｨｬｨ ) 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 6ｨｰﾂｨ 9ｨｰ6ｨｰ4 5ｨｺ9ｨｨ9ｨ 5ｨｪｨｰｨｪ6ｨｦ 97ｨｺｨｰ8ｨ 5ｨｹｨｪ6ｨｦ 756ｨｰｨｪ69ｨｰｨｨｨｪｨ 7873ｨｪｨｨ7 3ｨｮｨｬｨ, 78ｨｨ9ｨｪｨｪ66 ｨｺ6 96ｨｮ 66ｨｺ 9ｨｰ6ｨｺｨ ALPHA VK KF AF ｨC6 B ｨC8 6ｨｨ 5ｨｨｨ 5. 5ｨｰｨｨｰｨｨﾂ9ｨｺｨｨｨｨｨｪｨｮｨｨ869ｨｨｪｨｪ4 ｨｨｨ76578ｨｪ4 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ684. Fall Time (98ｨｬ7 97ｨｨ ) max 8ｨ 9656ｨｰｨｪ6 4ｨｪｨﾂｨｪｨｨｨｬｨｨｺ9ｨｨｨｬｨ 5ｨｹｨｪ66 ｨｰ6ｨｺｨｨｺ655ｨｺｨｰ68ｨ 78ｨｨｨｰｨｬ78ｨｨｰｨｮ8 5 6 5 AGD AREA 66 ｨC5 Bvces 8ｨ 9656ｨｰｨｪ6 4ｨｪｨﾂｨｪｨｨｨｬｨｨｺ9ｨｨｨｬｨ 5ｨｹｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 786ｨ 67 ｨｺ655ｨｺｨｰ68-5ｨｬｨｨｨｰｨｰ8 78ｨｨｨｺ686ｨｰｨｺ6ｨｬ 4ｨｨｬ4ｨｺｨｨｪｨｨｨｨ 4ｨｨｰ968-5ｨｬｨｨｨｰｨｰ8 TAU WB, 66 ｨC6 t f 8ｨｬ7 97ｨｨｨｰ6ｨｺｨｨｺ655ｨｺｨｰ68ｨ 78ｨｨｨｨｨｪｨｮｨｺｨｰｨｨ9ｨｪ6ｨｦｨｪｨ 8ｨｮ4ｨｺ 78ｨｨ 4ｨ 4ｨｪｨﾂｨｪｨｨ7, Vce 66ｨｺｨｺ655ｨｺｨｰ68ｨ Vce ｨ 7873ｨｪｨｨｨｺ655ｨｺｨｰ68-5ｨｬｨｨｨｰｨｰ8 Transfer Characteristics (7866ｨｪｨ 7 ｨ 8ｨｨｺｨｰ8ｨｨ9ｨｰｨｨｨｺｨ ) Vge, 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹｨｰ6ｨｺｨｨｺ655ｨｺｨｰ68ｨ 6ｨｰ 9ｨｬｨｴｨｪｨｨ7 4ｨｨｰ968-5ｨｬｨｨｨｰｨｰ8 Vge 84,38 A/B Vce ｨ 7873ｨｪｨｨｨｺ655ｨｺｨｰ68-5ｨｬｨｨｨｰｨｰ8, 78ｨｨｨｺ6ｨｰ686ｨｬ 7869ｨｪ4 ｨｨ4ｨｬ8ｨｪｨｨ7 VT B Saturation Characteristics (ｨ 8ｨｨｺｨｰ8ｨｨ9ｨｰｨｨｨｺｨｨｪｨ 94ｨｴｨｪｨｨ7) Vce, 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹｨｰ6ｨｺｨｨｺ655ｨｺｨｰ68ｨ 6ｨｰｨｪｨ 7873ｨｪｨｨ7 ｨｺ655ｨｺｨｰ68-5ｨｬｨｨｨｰｨｰ8 Vce KF A/B 9 83ｨｨｨｬｨｪｨ 94ｨｴｨｪｨｨ7 Vge ｨ 7873ｨｪｨｨ 4ｨｨｰ968-5ｨｬｨｨｨｰｨｰ8, 78ｨｨｨｺ6ｨｰ686ｨｬ 7869ｨｪ4 ｨｨ4ｨｬ8ｨｪｨｨ7 Gate Charge (4ｨ 87 9 6ｨ 5ｨ 9ｨｰｨｨ 4ｨｨｰ968ｨ ) Qge 5ｨ 87 6ｨ 5ｨ 9ｨｰｨｨ 4ｨｨｰ968-5ｨｬｨｨｨｰｨｰ8 9 969ｨｰ67ｨｪｨｨｨｨ 9ｨｺ56 ﾂｨｪ63 CGS,4 ｨｪ8/B Qgc 5ｨ 87 6ｨ 5ｨ 9ｨｰｨｨ 4ｨｨｰ968-ｨｺ655ｨｺｨｰ68 9 969ｨｰ67ｨｪｨｨｨｨ 9ｨｺ56 ﾂｨｪ63 COXD 35 ｨｪ8/B Qg ｨｨｴｨｨｨｦ 4ｨ 87 4ｨｨｰ968ｨ 9 969ｨｰ67ｨｪｨｨｨｨ 9ｨｺ56 ﾂｨｪ63 VTD ｨC5 B Vg ｨ 7873ｨｪｨｨｨｪｨ 4ｨｨｰ968, 78ｨｨｨｺ6ｨｰ686ｨｬｨｨ4ｨｬ8ｨｪ 4ｨ 87 Qg Vcc ｨ 7873ｨｪｨｨｨｪｨｨｺ655ｨｺｨｰ68, 78ｨｨｨｺ6ｨｰ686ｨｬｨｨ4ｨｬ8ｨｪs Qge, Qgc, Qg 66ｨｺｨｺ655ｨｺｨｰ68ｨ, 78ｨｨｨｺ6ｨｰ686ｨｬｨｨ4ｨｬ8ｨｪs Qge, Qgc, Qg

36ｨｨ 5ｨｨｨ 6. 6ｨｴｨｪ4 3 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ684 Transconductance (78ｨｨｰ6 ﾂｨｪｨ 7 78696ｨｨｨｬ69ｨｰｨｹ) Id, gfs 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 78696ｨｨｨｬ69ｨｰｨｨ 787ｨｬ6ｨｦ 78ｨﾂｨｨ gfs 6ｨｰｨｰ6ｨｺｨ 9ｨｰ6ｨｺｨ Id W KP RS L. Transfer Curve (7866ｨｪｨ 7 ｨ 8ｨｨｺｨｰ8ｨｨ9ｨｰｨｨｨｺｨ ) Vgs, Id 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹｨｰ6ｨｺｨ 9ｨｰ6ｨｺｨ Id 6ｨｰ 9ｨｬｨｴｨｪｨｨ7 4ｨｨｰ968-ｨｨ9ｨｰ6ｨｺ Vgs VTO 3 B RDS (on) Resistance (96786ｨｰｨｨ95ｨｪｨｨｨｺｨｨｪｨ 5ｨ 9 969ｨｰ67ｨｪｨｨｨｨ 9ｨｺ56 ﾂｨｪ63) Id 66ｨｺ 9ｨｰ6ｨｺｨ RD, ｨｬ Rds Vgs Idss Vdg 5ｨｰｨｨｰｨｨﾂ9ｨｺ6 96786ｨｰｨｨ95ｨｪｨｨ 9ｨｰ6ｨｺ-ｨｨ9ｨｰ6ｨｺ 5ｨｬｨｴｨｪｨｨ 4ｨｨｰ968-ｨｨ9ｨｰ6ｨｺ Zero-Bias Leakage ( 96786ｨｰｨｨ95ｨｪｨｨｨｮｨｰﾂｨｺｨｨｨｺｨｨｪｨ 5ｨ 78ｨｨｨｪｨｮ596ｨｬ 9ｨｬｨｴｨｪｨｨｨｨｨｪｨ 4ｨｨｰ968) 66ｨｺ 9ｨｰ6ｨｺｨ 78ｨｨｨｪｨｮ596ｨｬ 76ｨｰｨｪｨｨｨ 5 4ｨｨｰ968ｨｨｨｨｪｨ 7873ｨｪｨｨｨｨ Vds 5ｨｬｨｴｨｪｨｨ 9ｨｰ6ｨｺ-ｨｨ9ｨｰ6ｨｺ 78ｨｨｨｨ4ｨｬ8ｨｪｨｨｨｨｨｰ6ｨｺｨ Idss Turn-On Carge (6ｨｨｲｨｬｨｪ4ｨｦ 4ｨ 87 9 969ｨｰ67ｨｪｨｨｨｨ 9ｨｺ56 ﾂｨｪ63) RDS?5,?6 ｨｬ Qgd ｨｨｴｨｨｨｦ 4ｨ 87 6ｨ 5ｨ 9ｨｰｨｨ 4ｨｨｰ968ｨ CGSO 4 pf Qgs 5ｨ 87 6ｨ 5ｨ 9ｨｰｨｨ 4ｨｨｰ968-ｨｨ9ｨｰ6ｨｺ, ｨｪ6ｨ 6ｨｨｨｬ4ｨｦ 57 78ｨｺ56 ﾂｨｪｨｨ7 CGDO pf Vds 369ｨｰ67ｨｪｨｪ4ｨｦ 76ｨｰｨｪｨｨｨ 5 ｨｨ9ｨｰ6ｨｺｨ (76 5 ) Id 66ｨｺ 9ｨｰ6ｨｺｨ (76 5 8) Output Capacitance (946ｨｪｨ 7 ｨｬｨｺ69ｨｰｨｹ) Vds Coss 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 946ｨｪ6ｨｦｨｬｨｺ69ｨｰｨｨ Coss 6ｨｰ 9ｨｬｨｴｨｪｨｨ7 9ｨｰ6ｨｺ-ｨｨ9ｨｰ6ｨｺ Vds Switching Time (8ｨｬ7 78ｨｺ56 ﾂｨｪｨｨ7) t f 8ｨｬ7 78ｨｺ56 ﾂｨｪｨｨ7 RG 5 ｨｬ Id 66ｨｺ 9ｨｰ6ｨｺｨ Vdd 369ｨｰ67ｨｪｨｪ4ｨｦ 76ｨｰｨｪｨｨｨ 5 ｨｨ9ｨｰ6ｨｺｨ (76 ) Zo 46ｨｪ6 96786ｨｰｨｨ95ｨｪｨｨｨｪ8ｨｨｰ68ｨｨｨｨｬ7ｨｮ5ｨｹ9ｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 (76 5 ｨｬ) Reverse Drain Current (ｨｰ6ｨｺ 9ｨｰ6ｨｺｨ 9 ｨｨｨｪ989ｨｪ6ｨｬ 83ｨｨｨｬ) N 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹｨｪｨ 7873ｨｪｨｨ7 787ｨｬ66 9ｨｬｨｴｨｪｨｨ7 786ｨｨｨ9ｨｰ6ｨｺ-9ｨｰ6ｨｺ Vsd 6ｨｰ 6ｨ 8ｨｨｰｨｪ66 ｨｰ6ｨｺｨ 9ｨｰ6ｨｺｨ Idr CBD PB MJ FC ｨｪ8,8 IS?4 A N RB?3 ｨｬ 6ｨｨ 5ｨｨｨ 7. 78ｨｨｨ6ｨｪｨｪ4 ｨｮ9ｨｨ5ｨｨｨｰ5ｨｨ Large Signal Swing (7ｨ 8ｨｨｬｨｰ84 57 ｨ 65ｨｹ366 9ｨｨｨｪｨ 5ｨ ) +Vpwr ｨ 7873ｨｪｨｨｨｨ9ｨｰ6 ﾂｨｪｨｨｨｺｨ 76563ｨｨｨｰ5ｨｹｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 (5 ) VC B ｨCVpwr ｨ 7873ｨｪｨｨｨｨ9ｨｰ6 ﾂｨｪｨｨｨｺｨ 6ｨｰ8ｨｨｨｨｰ5ｨｹｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 (ｨC5 ) VE B +Vout ｨｨｺ9ｨｨｨｬｨ 5ｨｹｨｪ6 4ｨｪｨﾂｨｪｨｨ 946ｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 76563ｨｨｨｰ5ｨｹｨｪ6ｨｦ 76578ｨｪ69ｨｰｨｨ (3 ) ｨCVout +SR ｨCSR Pd ｨｨｺ9ｨｨｨｬｨ 5ｨｹｨｪ6 4ｨｪｨﾂｨｪｨｨ 946ｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 6ｨｰ8ｨｨｨｨｰ5ｨｹｨｪ6ｨｦ 76578ｨｪ69ｨｰｨｨ (ｨC3 ). ｨｨｺ9ｨｨｨｬｨ 5ｨｹｨｪｨ 7 9ｨｺ6869ｨｰｨｹｨｪｨ 8ｨ 9ｨｰｨｨｪｨｨ7 946ｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 76563ｨｨｨｰ5ｨｹｨｪ6ｨｦ 76578ｨｪ69ｨｰｨｨ (5 3 /9) ｨｨｺ9ｨｨｨｬｨ 5ｨｹｨｪｨ 7 9ｨｺ6869ｨｰｨｹｨｪｨ 8ｨ 9ｨｰｨｨｪｨｨ7 946ｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 6ｨｰ8ｨｨｨｨｰ5ｨｹｨｪ6ｨｦ 76578ｨｪ69ｨｰｨｨ (5 3 /9) 36ｨｰ8ｨ 57ｨｬｨ 7 ｨｬ6ｨｴｨｪ69ｨｰｨｹ 9 9ｨｰｨｨｰｨｨﾂ9ｨｺ6ｨｬ 83ｨｨｨｬ (5 ｨｬｨｰ) Open Loop Gain (ｨｺ65ｨｨｨｨｨｪｨｰｨｮ9ｨｨ5ｨｪｨｨ7 ｨ 4 7ｨｨ 6ｨ 8ｨｨｰｨｪ6ｨｦ 9974ｨｨｪ 946ｨｪ6ｨｦｨｺｨ 9ｨｺｨｨｪｨ 96). Cc 3ｨｬｨｺ69ｨｰｨｹｨｺ688ｨｺｨｨｨｨ (3 78) BF 75 Ib 6ｨｪ6ｨｦｨｰ6ｨｺ 9ｨｬｨｴｨｪｨｨ7 ( ｨｪ8) BF 75 Av-dc 865ｨｨｨｨｨｪｨｰｨｮ9ｨｨ5ｨｪｨｨ7 769ｨｰ67ｨｪｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 ( ｨｰ49.) C 3 pf fｨcodb ﾁｨ 9ｨｰ6ｨｰｨｨｨｨｪｨｨﾂｨｪ66 ｨｮ9ｨｨ5ｨｪｨｨ7 ( ) CEE CMRR 865ｨｨｨｨｨｪｨｰ 76ｨ 95ｨｪｨｨ7 9ｨｨｨｪｨ 4ｨｪ66 9ｨｨｨｪｨ 5ｨ ( ｨｰ49.) GA 88 ｨC6 Ibos 4ｨ 4ｨｪ69ｨｰｨｹ 96ｨｪ4 ｨｰ6ｨｺ69 9ｨｬｨｴｨｪｨｨ7 ｨｪｨｮ57 () GCM,88 ｨC9 Vos ｨ 7873ｨｪｨｨ 9ｨｬｨｴｨｪｨｨ7 ｨｪｨｮ57 () IS IS IEE RC RE REE 8 ｨC6 8 ｨC6 5 ｨC6 53 8 3 8

3ｨｺ6ｨｪﾂｨｨｪｨｨｨｰｨｨ 5ｨｨ4 7 6 96ｨｪ66 ｨｺｨ 9ｨｺｨｨｨｨｨｪｨ 5ｨｨﾂｨｨ 9ｨｪｨｮｨｰ8ｨｪｨｪｨｦｨｨ5ｨｨ 9ｨｪ3ｨｪｨｦｨｺ688ｨｺｨｨｨｨ: Technology ｪ BJT (ｨｨｨ76578ｨｪ4ｨｦｨｰ8ｨｨｪ4ｨｨ9ｨｰ68) ｨｨ5ｨｨ J 7ET (76596ｨｦｨｰ8ｨｨｪ4ｨｨ9ｨｰ68); Input ｪ NPN ｨｨ5ｨｨ PNP (57 ｨｨｨ76578ｨｪ66 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ68ｨ ) NJ 7 ｨｨ5ｨｨ PJ 7 (57 765966 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ68ｨ ); Compensation ｪ internally (9ｨｪｨｮｨｰ8ｨｪｨｪ77) ｨｨ5ｨｨ externally (9ｨｪ3ｨｪ77) ｨｺ688ｨｺｨｨ7. non-inverting input inverting input positive power supply Q4 8 VI Q Q VI 7 I EE 4 negative power supply Q3 9 output 4ｨｨ9. 69. 5ｨｬｨ 9ｨｰｨｨｪｨ 8ｨｰｨｪ6ｨｦｨｬｨｨｺ86ｨｬ65ｨｨｨｺｨ 8ｨｨｰ68ｨ 3 F DP V E 5 Q5. Open Loop Gain (ｨｺ65ｨｨｨｨｨｪｨｰｨｮ9ｨｨ5ｨｪｨｨ7 ｨ 4 7ｨｨ 6ｨ 8ｨｨｰｨｪ6ｨｦ 9974ｨｨｪ 946ｨｪ6ｨｦｨｺｨ 9ｨｺｨｨｪｨ 36) Cc 3ｨｬｨｺ69ｨｰｨｹｨｺ688ｨｺｨｨｨｨ ( 78) BETA 79 ｨC6 Av-dc 865ｨｨｨｨｨｪｨｰｨｮ9ｨｨ5ｨｪｨｨ7 769ｨｰ67ｨｪｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 ( ｨｰ49.) C pf fｨcodb ﾁｨ 9ｨｰ6ｨｰｨｨｨｨｪｨｨﾂｨｪ66 ｨｮ9ｨｨ5ｨｪｨｨ7 ( ) CSS CMRR 865ｨｨｨｨｨｪｨｰ 76ｨ 95ｨｪｨｨ7 9ｨｨｨｪｨ 4ｨｪ66 9ｨｨｨｪｨ 5ｨ ( ｨｰ49.) GA 63 ｨC6 Ibos 4ｨ 4ｨｪ69ｨｰｨｹ 96ｨｪ4 ｨｰ6ｨｺ69 9ｨｬｨｴｨｪｨｨ7 ｨｪｨｮ57 () GCM 63 ｨC Vos ｨ 7873ｨｪｨｨ 9ｨｬｨｴｨｪｨｨ7 ｨｪｨｮ57 () IS 5 ｨC Ib 6ｨｪ6ｨｦｨｰ6ｨｺ 9ｨｬｨｴｨｪｨｨ7 (3ｨｪ8) ISS RD RSS VTO VTO 5 ｨC6 6 466 6 8 ｨC ｨC Open Loop Phase (ｨ 46- ﾂｨ 9ｨｰ6ｨｰｨｪｨ 7 ｨ 8ｨｨｺｨｰ8ｨｨ9ｨｰｨｨｨｺｨｨ 4 7ｨｨ 6ｨ 8ｨｨｰｨｪ6ｨｦ 9974ｨｨ) Phi 5ｨ 7ｨ 9 76 ｨ 4 ｨｪｨﾂｨ 9ｨｰ6ｨｰｨｨｨｪｨｨﾂｨｪ66 ｨｮ9ｨｨ5ｨｪｨｨ7, 8ｨ (6) C 8,6 pf RoｨCdc 46ｨｪ6 96786ｨｰｨｨ95ｨｪｨｨｨｪｨｨｪｨｨ4ｨｺｨｨﾂｨ 9ｨｰ6ｨｰｨ (75 ｨｬ) R 5 Oｨｬ RoｨCac 46ｨｪ6 96786ｨｰｨｨ95ｨｪｨｨｨｪｨ 9496ｨｺｨｨﾂｨ 9ｨｰ6ｨｰｨ (5 ｨｬ) R 5 Oｨｬ Ios ｨｨｺ9ｨｨｨｬｨ 5ｨｹｨｪ4ｨｦｨｰ6ｨｺｨｺ686ｨｰｨｺ66 4ｨｨｬ4ｨｺｨｨｪｨｨ7 ( ｨｬ8) GB 3 5ｨｨｬﾂｨｨｪｨｨ7:. 36 7ｨ 8ｨｨｬｨｰ8ｨｨｬｨｬｨｨｰｨｬｨｨｰｨｨﾂ9ｨｺ6ｨｦｨｬ65ｨｨ 78ｨｨ99ｨｨｨ9ｨ 6ｨｰ97 4ｨｪｨﾂｨｪｨｨ7 7ｨ 8ｨｨｬｨｰ869 ｨｺ6ｨｪｨｺ8ｨｰｨｪ4 7. ｨｰｨｨ 5. 37 57 ｨｺ6ｨｪｨｺ8ｨｰｨｪ69ｨｰｨｨ 78ｨｨ9ｨｪ4 7ｨ 8ｨｨｬｨｰ84 ｨｬ65ｨｨ 7 477 (ｨｨｪｨ 56 ma74).. ﾁｨ 9ｨｰ6ｨｰｨｨｨｨｪｨｨﾂｨｪ66 ｨｮ9ｨｨ5ｨｪｨｨ7 f ｨC Odb 9974ｨｨｪｨ 9 ﾂｨ 9ｨｰ6ｨｰ6ｨｦ 78966 76569ｨ, 966ｨｰｨｪ63ｨｪｨｨｨｬ f ｨC Odb = f Av ｨC dc. 5ｨ 7ｨ 9 76 ｨ 4 Phi ｨｪｨﾂｨ 9ｨｰ6ｨｰｨｨｨｪｨｨﾂｨｪ66 ｨｮ9ｨｨ5ｨｪｨｨ7 67857ｨｰ97 6ｨｰｨｪ63ｨｪｨｨｨｬﾂｨ 9ｨｰ6ｨｰ4 ｨｨｨｪｨｨﾂｨｪ66 ｨｮ9ｨｨ5ｨｪｨｨ7 ｨｺﾂｨ 9ｨｰ6ｨｰ 9ｨｰ6866 76569ｨ f Phi = 9 罟Cargtg(f ｨC Odb/f ), argtg 94 ﾂｨｨ957ｨｰ97 9 8ｨｨｮ9ｨ. 3. 57 7 9 9ｨｪ3ｨｪｨｦｨｺ688ｨｺｨｨｨｦｨｮｨｺｨ 449ｨｨｰ97 4ｨｪｨﾂｨｪｨｨｨｬｨｺ69ｨｰｨｨｨｺ688ｨｺｨｰｨｨ8ｨｮ6ｨｴ6 ｨｺ6ｨｪｨｪ9ｨｨｰ68ｨ 59, 57 ｨｺ6ｨｰ6866 78ｨｨ9ｨｪ6 4ｨｪｨﾂｨｪｨｨ 4ｨ 7ｨ 9ｨ 76 ｨ 4 Phi ｨｨ 8ｨｮｨｨ 7ｨ 8ｨｨｬｨｰ84 7. 4. 978ｨ 96 ﾂｨｪ4 6ｨ 4 ﾂｨｪ6 78ｨｨ96ｨｨｨｰ97 765ｨｪ6 946ｨｪ6 96786ｨｰｨｨ95ｨｪｨｨ R94=R o ｨC ac + R o ｨC dc.36 ｨｪｨ 6 8ｨ 45ｨｨｨｰｨｹｨｪｨ 9 969ｨｰｨ 9576ｨｴｨｨ, 68ｨｨｨｪｨｰｨｨ8ｨｮ79ｨｹｨｪｨ 78ｨｨｨ 5ｨｨ3ｨｪｨｪ6 966ｨｰｨｪ63ｨｪｨｨ R o ｨC dc = R o ｨC ac. 8ｨ 8ｨｨｰ684 ｨｪｨ 7873ｨｪｨｨ7 3ｨ 9768ｨｰｨｪ4 ｨｨｪｨｪ4 ｨｺｨ 8ｨｨｰ68ｨｨｪｨ 7873ｨｪｨｨ7, ｨｺ6ｨｰ684 996ｨｨｨｰ 765ｨｹ469ｨｨｰ5ｨｹ, ｨｨ 97ｨｨ96ｨｺ 7ｨ 8ｨｨｬｨｰ869 6 ｨｬｨｨｰｨｬｨｨｰｨｨﾂ9ｨｺ6ｨｦｨｬ65ｨｨ (8ｨｨ9. 69), ｨｺ6ｨｰ684 8ｨ 99 ﾂｨｨｨｰ49ｨ 6ｨｰ97 76 7868ｨｨｬｨｬ, 78ｨｨ9ｨｪ4 9 ｨｰｨｨ 5. 8. 3695 94ｨ 68ｨ 9 ｨｪｨﾂｨ 5ｨｹｨｪ6ｨｬｨｬｨｪ6 7868ｨｨｬｨｬ4 PSPICE 6ｨｨ 5ｨｨｨ 8. 8ｨ 8ｨｨｰ684 ｨｪｨ 7873ｨｪｨｨ7 Transfer funcktion (78ｨｨｰ6 ﾂｨｪｨ 7 ｨｮｨｪｨｺｨｨ7) +Vpwr ｨ 7873ｨｪｨｨｨｨ9ｨｰ6 ﾂｨｪｨｨｨｺｨ 76563ｨｨｨｰ5ｨｹｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 (5 ) ｨCVpwr ｨ 7873ｨｪｨｨｨｨ9ｨｰ6 ﾂｨｪｨｨｨｺｨ 6ｨｰ8ｨｨｨｨｰ5ｨｹｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 ( ) +Vicr ｨｨｺ9ｨｨｨｬｨ 5ｨｹｨｪ6 4ｨｪｨﾂｨｪｨｨ 76563ｨｨｨｰ5ｨｹｨｪ66 787ｨｨ 9ｨｨｨｪｨ 4ｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 (3,5 ) ｨCVicr ｨｨｺ9ｨｨｨｬｨ 5ｨｹｨｪ6 4ｨｪｨﾂｨｪｨｨ 6ｨｰ8ｨｨｨｨｰ5ｨｹｨｪ66 787ｨｨ 9ｨｨｨｪｨ 4ｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 ( ) Ib 6ｨｪ6ｨｦｨｰ6ｨｺ 9ｨｬｨｴｨｪｨｨ7 (5 ｨｪ8) Avd 865ｨｨｨｨｨｪｨｰｨｮ9ｨｨ5ｨｪｨｨ7 769ｨｰ67ｨｪｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 ( ｨｰ49.) BF BF5 V RI 56786ｨｰｨｨ95ｨｪｨｨｨｪｨ 8ｨｮ4ｨｺｨｨ ( ｨｺｨｬ) Pd 36ｨｰ8ｨ 57ｨｬｨ 7 ｨｬ6ｨｴｨｪ69ｨｰｨｹ 9 9ｨｰｨｨｰｨｨﾂ9ｨｺ6ｨｬ 83ｨｨｨｬ (5 ｨｬｨｰ) Falling Delay (4ｨ 83ｨｺｨ 97ｨｨｨｪｨ 7873ｨｪｨｨ7). Vst 387ｨ 96ｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 (, ) TR3 ｨC8 9 Vod 38964ｨｨｮ3ｨｪｨｨ 96ｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 ( ｨｬ) td 5ｨｨｨｰ5ｨｹｨｪ69ｨｰｨｹ 4ｨ 83ｨｺｨｨ (5 ｨｪ9) Transition Time (98ｨｬ7 78ｨｺ56 ﾂｨｪｨｨ7) Vst 387ｨ 96ｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 (, ) TF5 7 ｨｪ9 Vod 38964ｨｨｮ3ｨｪｨｨ 96ｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 ( ｨｬ) ttr 5ｨｨｨｰ5ｨｹｨｪ69ｨｰｨｹ 86ｨｪｨｰｨｨｪｨ 8ｨ 9ｨｰｨｨｪｨｨ7 946ｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 ( ｨｪ9) Rising Time (98ｨｬ7 ｨｪｨ 8ｨ 9ｨｰｨｨｪｨｨ7 ｨｪｨ 7873ｨｪｨｨ7) Vst 387ｨ 96ｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 (, ) TR5 ｨｪ9 Vod 38964ｨｨｮ3ｨｪｨｨ 96ｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 ( ｨｬ) td 5ｨｨｨｰ5ｨｹｨｪ69ｨｰｨｹ 86ｨｪｨｰｨ 97ｨｨ 946ｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 ( ｨｪ9)

3MODEL EDITOR 83ｨｨｨｬｨ VOLT. COMPARATOR ｨｪ6ｨ 6ｨｨｨｬ6 76 4ｨ 7869ｨｮ 7868ｨｨｬｨｬ4 ｨｮｨｺｨ 4ｨｨｰｨｹｨｰｨｨ74 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ68ｨｪ66 96ｨｪ66 ｨｨ 946ｨｪ66 ｨｺｨ 9ｨｺｨ 69: Input Stage ｪ NPN ｨｨ5ｨｨ PNP (57 ｨｨｨ76578ｨｪ66 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ68ｨ ); Output Stage Connection ｪ to V Supply ｨｨ5ｨｨ to Ground ｪｨｮｨｺｨ 449ｨｨｰ97, 76ｨｺ56 ﾂｨｪ 5ｨｨｨｰ8ｨｨｪ4ｨｨ9ｨｰ68 946ｨｪ66 ｨｺｨ 9ｨｺｨｨｨｺｨｨ9ｨｰ6 ﾂｨｪｨｨｨｺｨｮ 6ｨｰ8ｨｨｨｨｰ5ｨｹｨｪ66 ｨｪｨ 7873ｨｪｨｨ7 ｨｨ5ｨｨ 78ｨｮ9ｨｬ6ｨｰ8ｨｪｨｪ4ｨ 9ｨｨ9ｨｨｨｬ4ｨｦ 946 4ｨｬ5ｨｨ3 946ｨｪ66 ｨｺｨ 9ｨｺｨｨ. 38ｨｨｨｬ8 ｨｬｨｨｺ86ｨｬ65ｨｨｨｺｨ 8ｨｨｰ68ｨ 789ｨｰｨ 95ｨｪ 3868ｨｨｬｨｬ6ｨｦ. 5ｨｰｨｨｨｨ5ｨｨ4ｨｨｰ684 ｨｪｨ 7873ｨｪｨｨ7 3ｨ 9768ｨｰｨｪ4 ｨｨｪｨｪ4 9ｨｰｨｨｨｨ5ｨｨ4ｨｨｰ68ｨｨｪｨ 7873ｨｪｨｨ7 (VOLT. RE 7ERENCE), ｨｺ6ｨｰ684 996ｨｨｨｰ 765ｨｹ469ｨｨｰ5ｨｹ, ｨｨ 97ｨｨ96ｨｺ 7ｨ 8ｨｨｬｨｰ869 6 ｨｬｨｨｰｨｬｨｨｰｨｨﾂ9ｨｺ6ｨｦｨｬ65ｨｨ, ｨｺ6ｨｰ684 8ｨ 99 ﾂｨｨｨｰ49ｨ 6ｨｰ97 76 7868ｨｨｬｨｬ, 78ｨｨ9ｨｪ4 9 ｨｰｨｨ 5. 9. 4ｨｮ57ｨｰ684 ｨｪｨ 7873ｨｪｨｨ7 3ｨ 9768ｨｰｨｪ4 ｨｨｪｨｪ4 8ｨｮ57ｨｰ68ｨｨｪｨ 7873ｨｪｨｨ7 (VOLT. REGULATOR), ｨｺ6ｨｰ684 996ｨｨｨｰ 765ｨｹ469ｨｨｰ5ｨｹ, ｨｨ 97ｨｨ96ｨｺ 7ｨ 8ｨｨｬｨｰ869 6 ｨｬｨｨｰｨｬｨｨｰｨｨﾂ9ｨｺ6ｨｦｨｬ65ｨｨ, ｨｺ6ｨｰ684 8ｨ 99 ﾂｨｨｨｰ49ｨ 6ｨｰ97 76 7868ｨｨｬｨｬ, 78ｨｨ9ｨｪ4 9 ｨｰｨｨ 5. 3. ｨｨｪｨｨｨｰｨｪ4 98 ﾂｨｪｨｨｨｺｨｨ 3ｨ 9768ｨｰｨｪ4 ｨｨｪｨｪ4 ｨｬｨｨｪｨｨｨｰｨｪ66 98 ﾂｨｪｨｨｨｺｨ, ｨｺ6ｨｰ684 996ｨｨｨｰ 765ｨｹ469ｨｨｰ5ｨｹ, ｨｨ 97ｨｨ96ｨｺ 7ｨ 8ｨｨｬｨｰ869 6 ｨｬｨｨｰｨｬｨｨｰｨｨﾂ9-3868ｨｨｬｨｬｨ. DEVICE= STANDART,VCOMP,NPN,GND STANDART voltage comparator macromodel3 subcircuit created using Model Editor release 9. on 9// at 4:4 The Model Editor is a PSpice product. connections: non-inverting input inverting input positive power supply negative power supply open collector output.subckt STANDART 3 4 5 f 3 9 v iee 7 4 dc.e-6 vi dc vi dc c b e q 9 7 qin q 8 7 qin q3 9 8 3 qmo q4 8 8 3 qmi.model qin NPN(Is=8.E-8 Bf=).model qmi PNP(Is=8.E-8 Bf=).model qmo PNP(Is=8.E-8 Bf= Cjc=E-5 Tr=.E-9) e 4 3 9 v dc q5 5 4 qoc.model qoc NPN(Is=8.E-8 Bf= Cjc=E-5 Tf=.E-9 Tr=.E-9) dp 4 3 dx rp 3 4.E3.model dx D(Is=8.E-8).ends ｨｺ6ｨｦｨｬ65ｨｨ, ｨｺ6ｨｰ684 8ｨ 99 ﾂｨｨｨｰ49ｨ 6ｨｰ97 76 7868ｨｨｬｨｬ, 78ｨｨ9ｨｪ4 9 ｨｰｨｨ 5. 3. 3868ｨｨｬｨｬｨ PSPICE MODEL EDITOR 9 ｨｪｨ 9ｨｰ67ｨｴ 98ｨｬ7 6ｨｪｨｨ9ｨｨｰ 7ｨ 8ｨｨｬｨｰ84 ｨｬ65ｨｨｨｬｨｨｪｨｨｨｰｨｪ66 98 ﾂｨｪｨｨｨｺｨｨｮ869ｨｪ7 LEVEL=, 9 ｨｺ6ｨｰ686ｨｦｨｪｨｮﾂｨｨｨｰ49ｨ 6ｨｰ97 5ｨｺｨｰ4 94ｨｨｨｨｬ6ｨｦ9ｨｰ9ｨｨ7 6ｨｬｨｪ69 ｨｨﾂｨ 9ｨｰ6ｨｰｨｪ6 4ｨ 9ｨｨ9ｨｨｨｬ4 76ｨｰ8ｨｨ. ｨｨｨｨ 65 ｨｨｺ9ｨｨｰｨｪ6 5ｨｰｨ 7868ｨｨｬｨｬｨ 6ｨｪｨｨ9ｨｨｰ 7ｨ 8ｨｨｬｨｰ84 88ｨｨｨｰ69 ｨｨｨｬ6-6ｨｨ 5ｨｨｨ 9. 5ｨｰｨｨｨｨ5ｨｨ4ｨｨｰ684 ｨｪｨ 7873ｨｪｨｨ7 6ｨｨ 5ｨｨｨ 3. 4ｨｮ57ｨｰ684 ｨｪｨ 7873ｨｪｨｨ7 5ｨｪｨﾂｨｪｨｨ 76 Revers Dynamic Impedance (ｨｨｨｪｨｨｬｨｨﾂ9ｨｺ6 96786ｨｰｨｨ95ｨｪｨｨ) Ir, 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 6ｨ 8ｨｨｰｨｪ66 NZ ｨC3 Rz ｨｰ6ｨｺｨ Ir 6ｨｰｨｨｨｪｨｨｬｨｨﾂ9ｨｺ66 RZ ｨｬ 96786ｨｰｨｨ95ｨｪｨｨ7 Rz Reference Voltage (ｨｪｨ 7873ｨｪｨｨ 9ｨｰｨｨｨｨ5ｨｨ4ｨｨｨｨｨ) Vref ｨ 7873ｨｪｨｨ 6ｨ 8ｨｨｰｨｪ66 RBV 786ｨ 67 Ir ｨ 8ｨｨｰｨｪ4ｨｦｨｰ6ｨｺ 78ｨｨｨｺ6ｨｰ686ｨｬ IRMAX ｨｨ4ｨｬ8ｨｪ6 ｨｪｨ 7873ｨｪｨｨ Vref Irmax 6ｨｮ5ｨｹｨｬｨｨｺ9ｨｨｨｬｨ 5ｨｹｨｪ66 4ｨｪｨﾂｨｪｨｨ7 ｨｰ6ｨｺｨ 786ｨ 67 3 ｨｬ8 Temperature Drift (ｨｰｨｬ78ｨｨｰｨｮ8ｨｪｨ 7 ｨｪ9ｨｰｨｨｨｨ5ｨｹｨｪ69ｨｰｨｹ) Ttemp 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹｨｪｨ 7873ｨｪｨｨ7 65 ｨC5 Vref 6ｨ 8ｨｨｰｨｪ66 786ｨ 67 Vref 6ｨｰ 65 ｨｰｨｬ78ｨｨｰｨｮ84 ｨC7 ｨC7 Reverse Characteristics (ｨ 8ｨｨｺｨｰ8ｨｨ9ｨｰｨｨｨｺｨ 83ｨｨｨｬｨ 6ｨ 8ｨｨｰｨｪ66 9ｨｺ56 ﾂｨｪｨｨ7) Vr, Ir 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 6ｨ 8ｨｨｰｨｪ66 IREV ｨｪｨ 7873ｨｪｨｨ7 Vr 6ｨｰ NREV 5 6ｨ 8ｨｨｰｨｪ66 ｨｰ6ｨｺｨ Ir 7orward Characteristics (ｨ 8ｨｨｺｨｰ8ｨｨ9ｨｰｨｨｨｺｨ 8ｨｨ 6 ﾂ6 83ｨｨｨｬｨ ) Ifwd 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 6ｨ 8ｨｨｰｨｪ66 IS ｨC4 Vfwd ｨｰ6ｨｺｨ 6ｨｰ 76ｨｰ8ｨ 57ｨｬ66 RS ｨｪｨ 7873ｨｪｨｨ7 Vfwd IKF, XTI XTI 3 Vref ｨ 7873ｨｪｨｨ 9ｨｰｨｨｨｨ5ｨｨ4ｨｨｨｨｨ VREF,5 B Dropout ｨ 7873ｨｪｨｨ 6ｨｰ7ｨｮ9ｨｺｨｨｪｨｨ7 N (ViｨCVo) max IOmin Reference Voltage (ｨｪｨ 7873ｨｪｨｨ 9ｨｰｨｨｨｨ5ｨｨ4ｨｨｨｨｨ) ｨｨｺ9ｨｨｨｬｨ 5ｨｹｨｪｨ 7 8ｨ 4ｨｪｨｨｨｨｬ3ｨｮ 96ｨｪ4ｨｬｨｨ 946ｨｪ4ｨｬｨｪｨ 7873ｨｪｨｨｨｬｨｨｨｪｨｨｨｬｨ 5ｨｹｨｪ4ｨｦ 946ｨｪ6ｨｦｨｰ6ｨｺ Adjustment Pin Current (ｨｰ6ｨｺｨｮ9ｨｰｨｨｪ69ｨｺｨｨ) Iadj 66ｨｺｨｮ9ｨｰｨｨｪ69ｨｺｨｨ BETA 5 8 Output Impedance (946ｨｪ6 96786ｨｰｨｨ95ｨｪｨｨ) Zout 46ｨｪ6 96786ｨｰｨｨ95ｨｪｨｨｨｪｨｨｪｨｨ4ｨｺｨｨﾂｨ 9ｨｰ6ｨｰｨ Zero ﾁｨ 9ｨｰ6ｨｰｨｨｪｨｮ57 946ｨｪ66 ｨｺ5ｨｺ9ｨｪ66 96786ｨｰｨｨ95ｨｪｨｨ7 RR 8ｨ 9ｨｪ6ｨｬ8ｨｪ69ｨｰｨｹ 695ｨｨ 5ｨｪｨｨ7 7ｨｮ5ｨｹ9ｨｨｨｨｦｨｪｨｨｪｨｨ4ｨｺｨｨﾂｨ 9ｨｰ6ｨｰｨ, 9 ｨｨｨ 5ｨ Freguency ﾁｨ 9ｨｰ6ｨｰｨ, ｨｪｨｨｺ6ｨｰ686ｨｦｨｨ4ｨｬ8ｨｪ4 Zout ｨｨ RR IO 46ｨｪ6ｨｦｨｰ6ｨｺ, ｨｪｨｨｺ6ｨｰ686ｨｦｨｨ4ｨｬ8ｨｪ4 Zout ｨｨ RR VAF CPZ Current Limit (785ｨｹｨｪ6 4ｨｪｨﾂｨｪｨｨ 946ｨｪ66 ｨｰ6ｨｺｨ ) IO max ｨｨｺ9ｨｨｨｬｨ 5ｨｹｨｪ4ｨｦ 946ｨｪ6ｨｦｨｰ6ｨｺ RB Iofb, 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹｨｰ6ｨｺｨ 6ｨ 8ｨｨｰｨｪ6ｨｦ 9974ｨｨ Iofb 6ｨｰ ESC Vi-Vo 8ｨ 4ｨｪｨｨ4 ｨｬ3ｨｮ 96ｨｪ4ｨｬｨｨ 946ｨｪ4ｨｬｨｪｨ 7873ｨｪｨｨｨｬ ViｨCVo ESC ｨC, EFB 5 EFB ｨC EB ｨｬｨｪｨｬ

36ｨｨ 5ｨｨｨ 3. ｨｨｪｨｨｨｰｨｪ4 98 ﾂｨｪｨｨｨｺｨｨ H(Oers), 8668ｨｨｨｪｨｨｰ4 ｨｺ8ｨｨ96ｨｦｨｪｨｨｬｨｨｪｨｨﾂｨｪｨｪ69ｨｰｨｨ MS Hysteresis Curve (88ｨｨ9ｨ 7 ｨｨ9ｨｰ84ｨｨ9ｨ ) A B (Gauss) ｨﾂｨ 5ｨｹｨｪｨ 7 ｨｬｨｨｪｨｨｨｰｨｪｨ 7 C, K 5 AREA, GAP PACK PATH 5ｨｨｨｨｪ694 78ｨｬｨ 56ｨｨ. 69765ｨｹ469ｨｨｪｨｪｨ 7 9 784ｨｮｨｴｨｨ 989ｨｨ7 ｨｬ65ｨｹｨｮ869ｨｪ7 LEVEL= ｨ 65ｨｹ3 ｨｪｨｨ9765ｨｹ4ｨｮｨｰ97 ｨｨ4-4ｨ 996ｨｦｨｬｨ 56ｨｦ 69ｨｰ698ｨｪ69ｨｰｨｨ. 96ｨｨｪｨｪ6 ｨ 65ｨｹ3ｨｨ 63ｨｨｨｨｺｨｨｨ 45ｨｨ 4ｨｨｬﾂｨｪ4 78ｨｨｨｬ65ｨｨ869ｨｨｪｨｨｨｨ 98 ﾂｨｪｨｨｨｺ69, ｨｨｨｬ6ｨｴｨｨ 4ｨ 4684 ｪ 9 989ｨｨｨｨ PSPICE A/D, 967ｨｴｨｦ 9 OrCAD V9., 6ｨｪｨｨｨｮ9ｨｰ8ｨｨｪｨｪ4. 3868ｨｨｬｨｬｨ PSPICE MODEL EDITOR ｨｪｨ 69ｨｪ69ｨｨｪｨｨｨｨ 5ｨｺ978ｨｨｨｬｨｪｨｰｨ 5ｨｹｨｪ4 6ｨｪｨｨ9ｨｨｰ 7ｨ 8ｨｨｬｨｰ84, 6ｨｰ8ｨ 3ｨ 6ｨｴｨｨｨｨ4ｨｨﾂ9ｨｺｨｨ 996ｨｦ9ｨｰ9ｨｨｬｨｨｪｨｨｨｰｨｪ4 ｨｬｨｨｰ8ｨｨｨ 569. 38ｨｨ 964ｨｨｪｨｨｨｨｨｨｦ569 ｨｬ65ｨｦｨｨ4 6ｨｪ66 ｨｬｨｨｰ8ｨｨｨ 5ｨ 9 8ｨ 4ｨｪ6ｨｦ 6ｨｬｨｰ8ｨｨｨｦｨｮ6ｨｨｪ6 ｨｨ9765ｨｹ469ｨｨｰｨｹｨｺ6ｨｪ9ｨｰ8ｨｮｨｺｨｨ6 88. 365ｨｹ469ｨｨｰ5ｨｹ 996ｨｨｨｰ 76 ｨｰ6 ﾂｨｺｨｨｬｨｺ8ｨｨ9ｨｮ6 ｨｪｨｨｬｨｨｪｨｨﾂｨｨ9ｨｨｪｨｨ7 ｨｨｨｮｨｺｨ 449ｨｨｰ 4ｨｪｨﾂｨｪｨｨｨｪｨﾂｨ 5ｨｹｨｪ6ｨｦｨｬｨｨｪｨｨｨｰｨｪ6ｨｦ 786ｨｪｨｨｨｨｬ69ｨｰｨｨ, ｨｪｨ 69ｨｪ69ｨｨｪｨｨｨｨﾂ6 7868ｨｨｬｨｬｨ 8ｨ 99 ﾂｨｨｨｰ49ｨｨｰ 7ｨ 8ｨｨｬｨｰ84 6 ｨｬ65ｨｨ (ｨｪｨ 7873ｨｪｨｪ69ｨｰｨｹｨｬｨｨｪｨｨｨｰｨｪ66 7657 ｨｮｨｺｨ 449ｨｨｰ97 9 589ｨｰｨ, ｨｬｨｨｪｨｨｨｰｨｪｨ 7 ｨｨｨｪｨｮｨｺｨｨ7 ｪ 9 ｨｨｮ99ｨ ). 3695 4ｨｨｨｪｨｨ7 ｨｪｨﾂｨ 5ｨｹｨｪ6ｨｦｨｬｨｨｪｨｨｨｰｨｪ6ｨｦ 786ｨｪｨｨｨｨｬ69ｨｰｨｨｨｨ 996ｨ 76 ｨｰ6 ﾂｨｺｨｨｬｨｺ8ｨｨ96ｨｦｨｨ9ｨｰ84ｨｨ9ｨ 8ｨ 99 ﾂｨｨｨｰ49ｨ 6ｨｰ97 7ｨ 8ｨｨｬｨｰ84 ｨｬ65ｨｨｨｬｨｨｪｨｨｨｰｨｪ66 98 ﾂｨｪｨｨｨｺｨ. ｨ 5 57 ｨｺ6ｨｪｨｺ8ｨｰｨｪ6ｨｦｨｺ6ｨｪ9ｨｰ8ｨｮｨｺｨｨｨｨｨｰ8ｨｨｪ968ｨｬｨｨｰ68ｨｨｨ5ｨｨ 869957 9 6ｨｺｨｪ Parameters 9967ｨｰ 4ｨｪｨ - ﾂｨｪｨｨ7 6ｨｬｨｰ8ｨｨﾂ9ｨｺｨｨ 8ｨ 4ｨｬ869 98 ﾂｨｪｨｨｨｺｨ AREA, PATH, GAP ｨｨ PACK. LEVEL, Vbe 3 8/ｨｬ 6ｨｨ 5ｨｨｨ 3. 68ｨｨｪ4ｨｨ9ｨｰ684 ｨ 85ｨｨｨｪｨｰ6ｨｪｨ 68ｨｨｪ4ｨｨ9ｨｰ684 ｨ 85ｨｨｨｪｨｰ6ｨｪｨ 3ｨ 9768ｨｰｨｪ4 ｨｨｪｨｪ4 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ68ｨｨ 85ｨｨｨｪｨｰ6ｨｪｨ, ｨｺ6ｨｰ684 996ｨｨｨｰ 765ｨｹ469ｨｨｰ5ｨｹ, ｨｨ 97ｨｨ96ｨｺ 7ｨ 8ｨｨｬｨｰ869 6 ｨｬｨｨｰｨｬｨｨｰｨｨﾂ9ｨｺ6ｨｦｨｬ65ｨｨ, ｨｺ6ｨｰ684 8ｨ 99 ﾂｨｨｨｰ49ｨ 6ｨｰ97 76 7868ｨｨｬｨｬ, 78ｨｨ9ｨｪ4 9 ｨｰｨｨ 5. 3. 68ｨｨｪ4ｨｨ9ｨｰ68ｨｨ 85ｨｨｨｪｨｰ6ｨｪｨｨｪｨｨｨｬｨｰ 99ｨｰ86ｨｪｨｪ6ｨｦｨｬ65ｨｨｨｪ6 ｨｨｨｬｨｰ 9ｨｰｨｨｪｨ 8ｨｰｨｪｨｮ6 ｨｬｨｨｺ86ｨｬ65ｨｹ 38ｨｨ9ｨｬ 78ｨｨｨｬ8 ｨｬｨｨｺ86ｨｬ65ｨｨｨｰ8ｨｨｪ4ｨｨ9ｨｰ68ｨｨ 85ｨｨｨｪｨｰ6ｨｪｨ (7868ｨｨｬｨｬｨｮ 3). 8/ｨｬ 564ｨｨｪｨｨ 9ｨｨｨｬ96569 ｨｬ65ｨｦｨｺ6ｨｪｨｪｨｰ69 OrCAD-9 9ｨｰｨｹ 964ｨｬ63ｨｪ69ｨｰｨｹｨ 9ｨｰ6ｨｬｨｨｰｨｨﾂ9ｨｺ6ｨｦｨｪ8ｨｨｨｨｨ 9ｨｨｨｬ96569 ｨｺ6ｨｪｨｪｨｰ69 6ｨｪ698ｨｬｨｪｨｪ6 9 964ｨｨｪｨｨｨｬｨｨｨｬｨｨｰｨｬｨｨｰｨｨﾂ9ｨｺｨｨｨｬ65ｨｦ. (ｨｪｨｨ4ｨｬｨｪ7ｨｰ97) 57 5ｨｰ66 9 7868ｨｨｬｨｬ PSPICE MODEL EDITOR 9 ｨｬｨｪ6 Tools/Options ｨｪｨ 6 ｨｮ9ｨｰｨｨｪ69ｨｨｨｰｨｹ Vbe On Voltage Data (ｨｨｪｨｪ4 76 ｨｪｨ 7873ｨｪｨｨ6 ｨｪｨ 786 ｨｨ 4ｨ -5ｨｬｨｨｨｰｨｰ8) 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹｨｪｨ 7873ｨｪｨｨ7 ｨｨ 4ｨ -5ｨｬｨｨｨｰｨｰ8 Vbe 6ｨｰｨｰ6ｨｺｨｨｺ655ｨｺｨｰ68ｨ IS 9,87 ｨC4 RB,4 R 8 R AREA,893 Current Gain (79ｨｨ5ｨｪｨｨ 76 ｨｰ6ｨｺｨｮ), hee 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹｨｺ65ｨｨｨｨｨｪｨｰｨｨｮ9ｨｨ5ｨｪｨｨ7 76 769ｨｰ67ｨｪｨｪ6ｨｬｨｮｨｰ6ｨｺｨｮｨｰ8ｨｨｪ4ｨｨ9ｨｰ68ｨｨ 85ｨｨｨｪｨｰ6ｨｪｨ 6ｨｰｨｰ6ｨｺｨｨｺ655ｨｺｨｰ68ｨ (78ｨｨｨｪｨ 7873ｨｪｨｨｨｨｨｺ655ｨｺｨｰ68 5ｨｬｨｨｨｰｨｰ8 Vce=4) BF 67 IKF,34685 ISE, ｨC NE,48 NK Vce Saturation Voltage (ｨ 7873ｨｪｨｨｨｪｨ 94ｨｴｨｪｨｨ7 ｨｺ655ｨｺｨｰ68-5ｨｬｨｨｨｰｨｰ8), Vce 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹｨｪｨ 7873ｨｪｨｨ7 ｨｪｨ 94ｨｴｨｪｨｨ7 ｨｺ655ｨｺｨｰ68-5ｨｬｨｨｨｰ8 Vce BR,795 6ｨｰｨｰ6ｨｺｨｨｺ655ｨｺｨｰ68ｨ. ｨｰｨｪ63ｨｪｨｨｨｰ6ｨｺｨｨｺ655ｨｺｨｰ68ｨｨｺｨｰ6ｨｺｨｮｨｨ 44 9 IKR,735 83ｨｨｨｬｨｪｨ 94ｨｴｨｪｨｨ7 /Ib= ISC,63 ｨC NC,878 RC,4458 Input Capacitance (6ｨｪｨ 7 ｨｨ 8ｨｹ8ｨｪｨ 7 ｨｬｨｺ69ｨｰｨｹ) Veb, Cibo 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 96ｨｪ6ｨｦｨｬｨｺ69ｨｰｨｨ 5ｨｬｨｨｨｰ8-ｨｨ 4ｨ (Cibo) 6ｨｰ CJE ｨC ｨｪｨ 7873ｨｪｨｨ7 6ｨ 8ｨｨｰｨｪ66 9ｨｬｨｴｨｪｨｨ7 5ｨｬｨｨｨｰｨｰ8-ｨｨ 4ｨ Vr VJE,75 MJE,33 Ouput Capacitance (46ｨｪｨ 7 ｨｨ 8ｨｹ8ｨｪｨ 7 ｨｬｨｺ69ｨｰｨｹ) Vcb, Cobo 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 946ｨｪ6ｨｦｨｬｨｺ69ｨｰｨｨｨｺ655ｨｺｨｰ68-ｨｨ 4ｨ (Cobo) 6ｨｰ CJC E ｨC ｨｪｨ 7873ｨｪｨｨ7 6ｨ 8ｨｨｰｨｪ66 9ｨｬｨｴｨｪｨｨ7 ｨｺ655ｨｺｨｰ68-ｨｨ 4ｨ Vr VJC,75 MJC,33 Storage Time (8ｨｬ7 8ｨ 99ｨ 949ｨｨｪｨｨ7 4ｨ 87ｨ ) 8ｨｬ7 78ｨｺ56 ﾂｨｪｨｨ7 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ68ｨｨ 85ｨｨｨｪｨｰ6ｨｪｨ TR ｨC9 Ib 66ｨｺｨｨ 44, ﾂｨｰ6ｨ 4 9ｨｺ56 ﾂｨｨｨｰｨｹｨｰ6ｨｺｨｺ655ｨｺｨｰ68ｨ Ib 66ｨｺｨｨ 44, ﾂｨｰ6ｨ 4 94ｨｺ56 ﾂｨｨｨｰｨｹｨｰ6ｨｺｨｺ655ｨｺｨｰ68ｨ Rise time (8ｨｬ7 ｨｪｨ 8ｨ 9ｨｰｨｨｪｨｨ7) Vcc ｨ 7873ｨｪｨｨ 7ｨｨｨｰｨｨｪｨｨ7 ｨｺ655ｨｺｨｰ68ｨ TF ｨC9 Ib 5ｨｨﾂｨｨｨｪｨｨｰ6ｨｺｨ 9ｨｰｨｮ7ｨｪﾂｨｨｰ66 96ｨｪ66 9ｨｨｨｪｨ 5ｨ RL 56786ｨｰｨｨ95ｨｪｨｨｨｪｨ 8ｨｮ4ｨｺｨｨｨｺ655ｨｺｨｰ68ｨ Diode forward current (ｨｨ6ｨｪ4ｨｦ 787ｨｬ6ｨｦｨｰ6ｨｺ) Vfwd, 5ｨ 9ｨｨ9ｨｨｨｬ69ｨｰｨｹ 787ｨｬ66 ｨｰ6ｨｺｨﾂ84 99ｨｰ86ｨｪｨｪ4ｨｦ 9 ｨｰ8ｨｨｪ4ｨｨ9ｨｰ68 IS EｨC4 Ifwd ｨ 85ｨｨｨｪｨｰ6ｨｪｨ 4ｨｨｴｨｨｨｰｨｪ4ｨｦｨｨ6 6ｨｰ 787ｨｬ66 ｨｪｨ 7873ｨｪｨｨ7 RS, N IKF R 4 Q R Q 4ｨｨ9. 7. 5ｨｬｨ 9ｨｰｨｨｪｨ 8ｨｰｨｪ6ｨｦｨｬｨｨｺ86ｨｬ65ｨｨｨｰ8ｨｨｪ4ｨｨ9ｨｰ68ｨｨ 85ｨｨｨｪｨｰ6ｨｪｨ 3 D 5ｨｨｪｨ 786ｨｰｨｨ9 ｨｺ6ｨｬｨｨｪ4 Always Create Part When Saving Mo-del. Always Crete Part When Saving Model ｪ 9ｨｺ56 ﾂｨｪｨｨ/94ｨｺ56 ﾂｨｪｨｨ 83ｨｨｨｬｨｨ 9ｨｰ6ｨｬｨｨｰｨｨﾂ9ｨｺ66 964ｨｨｪｨｨ7 9ｨｨｨｬ96569

37695 969ｨｰｨ 95ｨｪｨｨ7 ｨｨｨｬｨｨｰｨｬｨｨｰｨｨﾂ9ｨｺ6ｨｦｨｬ65ｨｨ. Save Editor Capture/Shematics ｪ 968ｨｨｪｨｪｨｨ 68ｨｬｨｨｰ69 964ｨ 9ｨｨｬ66 9ｨｨｨｬ965ｨ. 9ｨｨｨ 6 9 68ｨｬｨｨｰ OrCAD (Capture), 5ｨｨｨ 6 9 68ｨｬｨｨｰ 784ｨｮｨｴｨｦ 989ｨｨｨｨ (Shematics) 8ｨｨｨﾂ9ｨｺ66 8ｨｨｺｨｰ68ｨ 9ｨｬ Design LAB V8. Save Part TO/Part library path same as model library ｪ 968ｨｨｪｨｪｨｨ 9ｨｨｨｬ96569 ｨｺ6ｨｪｨｪｨｰ69 9 ｨｰｨｬ 3 ｨｨｨｬｨｪｨｬ, ﾂｨｰ6 ｨｨｨｨｨｨ 5ｨｨ6ｨｰｨｺｨｨｬｨｨｰｨｬｨｨｰｨｨﾂ9ｨｺｨｨｨｺ6ｨｪｨｪｨｰ69. Save Part TO/Use-defined part library ｪｨｨ9765ｨｹ469ｨｨｪｨｨ 8ｨｮ66 ｨｨｨｬｨｪｨｨ 57 ｨｨｨｨ 5ｨｨ6ｨｰｨｺｨｨ 9ｨｨｨｬ96569 ｨｺ6ｨｪｨｪｨｰ69. Base Parts On/Parts in an existing part library ｪｨｨ9765ｨｹ469ｨｨｪｨｨｨｨ 44 9ｨｨｨｬ96569 ｨｨ4 9ｨｮｨｴ9ｨｰ9ｨｮ6ｨｴｨｦｨｨｨｨ 5ｨｨ6ｨｰｨｺｨｨ. 38ｨｨ 5ｨｰ6ｨｬｨｪｨ 6 ｨｮｨｺｨ 4ｨｨｰｨｹ 7ｨｮｨｰｨｹｨｺ 5ｨｰ6ｨｦｨｨｨｨ 5ｨｨ6ｨｰｨｺ. Translator ｪｨｮｨｺｨ 4ｨｨｪｨｨ 7ｨｮｨｰｨｹｨｺｨｰ8ｨｨｪ957ｨｰ68ｨｮ 9ｨｨｨｬ96569. Misc Setting/Current library path ｪｨｰｨｺｨｮｨｴｨｨｨｦ 7ｨｮｨｰｨｹｨｺｨｨｨｨ 5ｨｨ6ｨｰｨｺ. Misc Setting/Backub Dirrectory ｪｨｨ88ｨｺｨｰ68ｨｨ7 57 8489ｨｪ66 968ｨｨｪｨｪｨｨ7. Misc Setting/Synchronize Graph Splitter Windows ｪ 9ｨｨｨｪ86ｨｪｨｨ4ｨｨｨ7 8ｨ 45ｨｪｨｪ4 8ｨｨｨﾂ9ｨｺｨｨ 6ｨｺ6ｨｪ. Misc Setting/Automa-ticaly Update Graph ｪｨ 9ｨｰ6ｨｬｨｨｰｨｨﾂ9ｨｺ6 6ｨｨｪ695ｨｪｨｨ 8ｨｨｨｨｺ69. 5 3ｨｰ8ｨｨｺ69, petrakov@mtu-net.ru ｧｱｧ筴爰ﾔｧ筴ﾑｧﾞｧﾞｧﾑ 3 QN64 Darlington Transistor macromodel3 subcircuit created using Parts release 8. on /8/97 at 5:6 Parts is an Cadence Design Systems product. connections: Collector Base Emitter.SUBCKT QN64 3 Q 4 Qmodel Q 4 3 Qmodel 3.7647 D 3 Dmodel R 4 8.E3 R 4 3.MODEL Dmodel D + IS=.E-5 RS=.E-3 N= XTI=3 + CJO=.E- VJ= M=.5 FC=.5.MODEL Qmodel PNP + IS=9.58f BF=39.769 NF= VAF= + IKF=.85339 ISE=4.6688p NE=.5877 BR=.3437 + NR= VAR= IKR=.336u ISC=f + NC= RB=7.77763 NK=.5443 + RE= RC=.4368 EG=. + CJE=45.6E- VJE=. MJE=.487 TF=.8n + XTF= VTF= ITF= CJC=45.9E- + VJC=.5 MJC=.688 XCJC=.9 FC=.5 + TR=u.MODEL Qmodel PNP + IS=9.58f BF=39.769 NF= VAF= + IKF=.85339 ISE=4.6688p NE=.5877 BR=.3437 + NR= VAR= IKR=.336u ISC=f + NC= RB=7.77763 NK=.5443 + RE= RC=.4368 EG=. + CJE=45.6E- VJE=. MJE=.487 TF=.8n + XTF= VTF= ITF= CJC= + VJC=.5 MJC=.688 XCJC=.9 FC=.5 + TR=u.ENDS