2N1022A This specification is mandatory for use by all Depart- ments and Agencies of the Department of Defense. 1. SCOPE 1.1 Scope. This specification covers the detail requirements for a high-power, PNP, germa- nium transistor (see 6.2). i.2 Physical dimensions. See figure 1 (TO-3). 1.3 Maximum ratings. 1/ Pr = Type Tc tT 25C VcBo VEBO VCEO Ic Tatg Ty w vae | vae | vae | Ade | c | ec 2N456B 150 -40 -30 -30 2N457B 150 -60 -35 -40 2N458B 150 -80 -40 -45 7 -55 to+100|] +100 2N1021A 150 -100 -50 -50 2N1022A 150 -120 -60 -55 1/ Derate linearly 2.0 W/C for Tc >26C, 1.4 Primary electrical characteristics. hrE hFE | hee | Vcx(sat) VBE Io = -1.0 Ade Ic = -5.0 Ade Io = -1.0 Ade [Ic = -5,0 Ade Io = -5.0 Ade 9 VCE = -1.5 VdelVop = -1.5 Vde |Vop = -2.0 Vdel Ip = -0.5 Ade] Vop = -1.5 Vdel d-C f = 100 kHz Vde Vde C/W Min. 40 30 2.0 --- os Max. --- 120 8.0 -0.5 1.5 0.5 2. APPLICABLE DOCUMENTS 2.1 The following documents, of the issue in effect on date of invitation for bids or request for proposal,
2N1022 P-N-P ALLOY -JUNCTION GERMANIUM POWER TRANSISTORS CHOICE OF 40v, 60v, 80v, 100v, or 120v DEVICES LOW ko HIGH BETA LOW Res LOW THERMAL RESISTANCE 150 WATTS DISSIPATION Designed specifically for High-Voltage Power Converters, High-Voltage Amplifiers and Switching Circuits. Featuring Low Distortion, Low Saturation Resistance and Fast Switching Times mechanical data The use of silver alloy to assemble the mounting base and the use of resistance welding to seal the can, provide a hermetically sealed enclosure. During the assembly process the absence of flux, combined with extreme cleanliness, prevents sealed-in contamination. The mounting base provides an excellent heat path from the collector junction to a heat sink which must be in intimate contact to permit operation at maximum rated dissipation. The transistors are in a JEDEC TO-3 case. 1.573 MAX~el 0.450 MAX 0.312 MIN 1.197 SR 0.3501 EMITTER 9.675 1.177 0.525 RAD MAX ; 0.250 MIN g DIA 2 LEADS 0.655 obs 75 1.050 MAX ie fam - - 9. | Eo.t8 *
200M 15M| B 2ntols | Gc] P mss{ 200m |a|100] 30 | 6.0] 0] 70 7om| 2.6] 200M 20M | B 2N1021 | G] P 7-46 | uPAl 5ow |c| 95] 100 | 100]; x] 23] 7o] 1.0A] 1.0] 5.0A 2N1021A| G{ P| 2N1021] 7-46 | LPA| 150W | C | 100] 100 50]0] 30] 90] 5.0A] 0.5] 5.0A 200K | T 2N1022 | G| P Lea} sow |c} 95|120 | 120/x | 23] 7a] 5.0a] 1.0] 5.0a 2N1022A| G| P| 2N1022] 7-46 | LPA| 150W | Cc | 100] 120 5510] 30] 90] 5.0A] 0.5] 5.0A 200K | T 2n1023 | G| P| 2N3323] 9-71 | RFA| 120M |A| 100] 40 40] 0] 20] 175] 1.5M 2N1024 | s| P AFA|o.25w | A|175{ 18 15|U 9.0; E| 1.0m] B 2N1025 | S| PB AFA JO.25W | A]175] 40 35] U 9.0) E) 1.om| 8 2N1026 | S| P AFA |0.25w | A| 175] 40 35] U ig} |] 2.0m] B 2N1027 } s| PB AFA|o.25w | A] 175] 18 15|U 18|#] 4.0m! B 2N1028 | STP AFA|O.25W | A] 175] 12 10 | U y.0;E| 7.om|T 2n1029 |G) P| 2N1553] 7-67 | LPA| 90W | Cy] 100} 50 20} 0| 20] 60 10A] 1.0 10A 2nN1029A| G| P| 2N1554| 7-67 | LPA| 90w | CJ] 100] 60 30] 0] 20] 60] 0A] 1.0] 10a 2n10298| G] P| 2N1555| 7-67 | LeA| 90w | c
tor Junction Temperature Storage Temperature Range *Indicetes JEDEC registered data NOTES: 1. This valve applies when the base-emitter diode is open-circulted, 2. Derate linserly te + 100C cose temperature ct the rate of 2w/C. 2N456B 2N457B 2N458B 2NIO21A 2N1022A 40 60 v 80 v 100 v 120 v 30 v 40 v 45 v 50 v 55 v te 30 v _' 7a < 3a > 50 ye | 1) a 55C to + 100C Zz GLSYNZ E9SYNZ S3dAL 961 ANWNUdad wSYeE9 S-la ON NZTING VEZTOLNZ GNV VIZOLNZ TEXAS INSTRUM ENTS NCORPORA POST OFFICE BOX 5012 DALLAS, TEXAS 75222TYPES 2N456B, 2N457B, 2N458B, 2N1IO21A AND 2N1022A P-N-P ALLOY-JUNCTION GERMANIUM POWER TRANSISTORS electrical characteristics at 25C case temperature (unless otherwise noted) PARAMETER TEST CONDITIONS TYPE MIN TvP MAX | UNIT 2N4568 -40 2N457B - 60 BVcsq Collector-Base Breakdown Voltage le =-2me, k =0 2N4598 ~ 80 v 2NTO21A | 100 2N1022A_ | 120 2N4568 30 _ _ 2NA457B ~ 40* BVceo Collector-Emitter Breakdown Voltage ook ye b=0 masa | ~45* v 2N1021A | 50* 2N1022A
TO-3 60 15.0 35 20 40 5.0 3.0 15 3.0 .300 2N638A | TO-3 90 15.0 65 20 40 5.0 3.0 15 3.0 .300 2N638B | TO-3 100 15.0 75 20 40 5.0 3.0 15 3.0 .300 2N1021 | TO-3 100 20.0 100 30 90 1.5 5.0 50 5.0 .500 2N1021 A} TO-3 100 50 30.0 70 30 90 1.5 5.0 -50 5.0 "500 2N1022 | TO-3 120 20.0 120 30 90 1.5 5.0 50 5.0 -500 2N1022A} TO-3 120 55 30.0 75 30 90 2.0 5.0 -50 5.0 -500 2N1160 } TO-3 80 60 20.0 20 50 2.0 5.0 1.00 5.0 -500 2N3611 | TO-3 40 20.0 30 35 70 2.0 3.0 .25 3.0 .300 2N3612 | TO-3 60 30.0 45 35 70 2.0 3.0 .25 3.0 .300 2N3613 | TO-3 40 20.0 30 60 120 2.0 3.0 25 3.0 .300 2N3614 | TO-3 60 30.0 45 60 120 2.0 3.0 .25 3.0 .300 2N3615 | TO-3 80 40.0 60 30 60 2.0 3.0 25 3.0 .300 2N3616 | TO-3 100 50.0 75 30 60 2.0 3.0 25 3.0 .300 2N3617 | TO-3 80 40.0 60 45 90 2.0 3.0 .25 3.0 .300 2N3618 1 TO-3 100 50.0 75 45 90 2.0 3.0 .25 3.0 .300 10 AMP GERMANIUM PNP Observe {) Negative Polarit DA3F3 | MT-7 60 35 25 2.0 10.0 2N574 | MT-7 60 55 55 9 22 2.0 10.0 .20 1.0 2.000 2N574A| MT-7 80 60 70 9 22 2.0 10
200M 15M| B 2ntols | Gc] P mss{ 200m |a|100] 30 | 6.0] 0] 70 7om| 2.6] 200M 20M | B 2N1021 | G] P 7-46 | uPAl 5ow |c| 95] 100 | 100]; x] 23] 7o] 1.0A] 1.0] 5.0A 2N1021A| G{ P| 2N1021] 7-46 | LPA| 150W | C | 100] 100 50]0] 30] 90] 5.0A] 0.5] 5.0A 200K | T 2N1022 | G| P Lea} sow |c} 95|120 | 120/x | 23] 7a] 5.0a] 1.0] 5.0a 2N1022A| G| P| 2N1022] 7-46 | LPA| 150W | Cc | 100] 120 5510] 30] 90] 5.0A] 0.5] 5.0A 200K | T 2n1023 | G| P| 2N3323] 9-71 | RFA| 120M |A| 100] 40 40] 0] 20] 175] 1.5M 2N1024 | s| P AFA|o.25w | A|175{ 18 15|U 9.0; E| 1.0m] B 2N1025 | S| PB AFA JO.25W | A]175] 40 35] U 9.0) E) 1.om| 8 2N1026 | S| P AFA |0.25w | A| 175] 40 35] U ig} |] 2.0m] B 2N1027 } s| PB AFA|o.25w | A] 175] 18 15|U 18|#] 4.0m! B 2N1028 | STP AFA|O.25W | A] 175] 12 10 | U y.0;E| 7.om|T 2n1029 |G) P| 2N1553] 7-67 | LPA| 90W | Cy] 100} 50 20} 0| 20] 60 10A] 1.0 10A 2nN1029A| G| P| 2N1554| 7-67 | LPA| 90w | CJ] 100] 60 30] 0] 20] 60] 0A] 1.0] 10a 2n10298| G] P| 2N1555| 7-67 | LeA| 90w | c
200M 15M| B 2ntols | Gc] P mss{ 200m |a|100] 30 | 6.0] 0] 70 7om| 2.6] 200M 20M | B 2N1021 | G] P 7-46 | uPAl 5ow |c| 95] 100 | 100]; x] 23] 7o] 1.0A] 1.0] 5.0A 2N1021A| G{ P| 2N1021] 7-46 | LPA| 150W | C | 100] 100 50]0] 30] 90] 5.0A] 0.5] 5.0A 200K | T 2N1022 | G| P Lea} sow |c} 95|120 | 120/x | 23] 7a] 5.0a] 1.0] 5.0a 2N1022A| G| P| 2N1022] 7-46 | LPA| 150W | Cc | 100] 120 5510] 30] 90] 5.0A] 0.5] 5.0A 200K | T 2n1023 | G| P| 2N3323] 9-71 | RFA| 120M |A| 100] 40 40] 0] 20] 175] 1.5M 2N1024 | s| P AFA|o.25w | A|175{ 18 15|U 9.0; E| 1.0m] B 2N1025 | S| PB AFA JO.25W | A]175] 40 35] U 9.0) E) 1.om| 8 2N1026 | S| P AFA |0.25w | A| 175] 40 35] U ig} |] 2.0m] B 2N1027 } s| PB AFA|o.25w | A] 175] 18 15|U 18|#] 4.0m! B 2N1028 | STP AFA|O.25W | A] 175] 12 10 | U y.0;E| 7.om|T 2n1029 |G) P| 2N1553] 7-67 | LPA| 90W | Cy] 100} 50 20} 0| 20] 60 10A] 1.0 10A 2nN1029A| G| P| 2N1554| 7-67 | LPA| 90w | CJ] 100] 60 30] 0] 20] 60] 0A] 1.0] 10a 2n10298| G] P| 2N1555| 7-67 | LeA| 90w | c
200M 15M| B 2ntols | Gc] P mss{ 200m |a|100] 30 | 6.0] 0] 70 7om| 2.6] 200M 20M | B 2N1021 | G] P 7-46 | uPAl 5ow |c| 95] 100 | 100]; x] 23] 7o] 1.0A] 1.0] 5.0A 2N1021A| G{ P| 2N1021] 7-46 | LPA| 150W | C | 100] 100 50]0] 30] 90] 5.0A] 0.5] 5.0A 200K | T 2N1022 | G| P Lea} sow |c} 95|120 | 120/x | 23] 7a] 5.0a] 1.0] 5.0a 2N1022A| G| P| 2N1022] 7-46 | LPA| 150W | Cc | 100] 120 5510] 30] 90] 5.0A] 0.5] 5.0A 200K | T 2n1023 | G| P| 2N3323] 9-71 | RFA| 120M |A| 100] 40 40] 0] 20] 175] 1.5M 2N1024 | s| P AFA|o.25w | A|175{ 18 15|U 9.0; E| 1.0m] B 2N1025 | S| PB AFA JO.25W | A]175] 40 35] U 9.0) E) 1.om| 8 2N1026 | S| P AFA |0.25w | A| 175] 40 35] U ig} |] 2.0m] B 2N1027 } s| PB AFA|o.25w | A] 175] 18 15|U 18|#] 4.0m! B 2N1028 | STP AFA|O.25W | A] 175] 12 10 | U y.0;E| 7.om|T 2n1029 |G) P| 2N1553] 7-67 | LPA| 90W | Cy] 100} 50 20} 0| 20] 60 10A] 1.0 10A 2nN1029A| G| P| 2N1554| 7-67 | LPA| 90w | CJ] 100] 60 30] 0] 20] 60] 0A] 1.0] 10a 2n10298| G] P| 2N1555| 7-67 | LeA| 90w | c
200M 15M| B 2ntols | Gc] P mss{ 200m |a|100] 30 | 6.0] 0] 70 7om| 2.6] 200M 20M | B 2N1021 | G] P 7-46 | uPAl 5ow |c| 95] 100 | 100]; x] 23] 7o] 1.0A] 1.0] 5.0A 2N1021A| G{ P| 2N1021] 7-46 | LPA| 150W | C | 100] 100 50]0] 30] 90] 5.0A] 0.5] 5.0A 200K | T 2N1022 | G| P Lea} sow |c} 95|120 | 120/x | 23] 7a] 5.0a] 1.0] 5.0a 2N1022A| G| P| 2N1022] 7-46 | LPA| 150W | Cc | 100] 120 5510] 30] 90] 5.0A] 0.5] 5.0A 200K | T 2n1023 | G| P| 2N3323] 9-71 | RFA| 120M |A| 100] 40 40] 0] 20] 175] 1.5M 2N1024 | s| P AFA|o.25w | A|175{ 18 15|U 9.0; E| 1.0m] B 2N1025 | S| PB AFA JO.25W | A]175] 40 35] U 9.0) E) 1.om| 8 2N1026 | S| P AFA |0.25w | A| 175] 40 35] U ig} |] 2.0m] B 2N1027 } s| PB AFA|o.25w | A] 175] 18 15|U 18|#] 4.0m! B 2N1028 | STP AFA|O.25W | A] 175] 12 10 | U y.0;E| 7.om|T 2n1029 |G) P| 2N1553] 7-67 | LPA| 90W | Cy] 100} 50 20} 0| 20] 60 10A] 1.0 10A 2nN1029A| G| P| 2N1554| 7-67 | LPA| 90w | CJ] 100] 60 30] 0] 20] 60] 0A] 1.0] 10a 2n10298| G] P| 2N1555| 7-67 | LeA| 90w | c
200M 15M| B 2ntols | Gc] P mss{ 200m |a|100] 30 | 6.0] 0] 70 7om| 2.6] 200M 20M | B 2N1021 | G] P 7-46 | uPAl 5ow |c| 95] 100 | 100]; x] 23] 7o] 1.0A] 1.0] 5.0A 2N1021A| G{ P| 2N1021] 7-46 | LPA| 150W | C | 100] 100 50]0] 30] 90] 5.0A] 0.5] 5.0A 200K | T 2N1022 | G| P Lea} sow |c} 95|120 | 120/x | 23] 7a] 5.0a] 1.0] 5.0a 2N1022A| G| P| 2N1022] 7-46 | LPA| 150W | Cc | 100] 120 5510] 30] 90] 5.0A] 0.5] 5.0A 200K | T 2n1023 | G| P| 2N3323] 9-71 | RFA| 120M |A| 100] 40 40] 0] 20] 175] 1.5M 2N1024 | s| P AFA|o.25w | A|175{ 18 15|U 9.0; E| 1.0m] B 2N1025 | S| PB AFA JO.25W | A]175] 40 35] U 9.0) E) 1.om| 8 2N1026 | S| P AFA |0.25w | A| 175] 40 35] U ig} |] 2.0m] B 2N1027 } s| PB AFA|o.25w | A] 175] 18 15|U 18|#] 4.0m! B 2N1028 | STP AFA|O.25W | A] 175] 12 10 | U y.0;E| 7.om|T 2n1029 |G) P| 2N1553] 7-67 | LPA| 90W | Cy] 100} 50 20} 0| 20] 60 10A] 1.0 10A 2nN1029A| G| P| 2N1554| 7-67 | LPA| 90w | CJ] 100] 60 30] 0] 20] 60] 0A] 1.0] 10a 2n10298| G] P| 2N1555| 7-67 | LeA| 90w | c
1 2N678C PNP 90 (C) 100 100 70 (0) 50 100 10 1.0 10 _ _ TO-41 2N1011 PNP 35 (C) 95 80 80 (S) 30 75 3.0 1.5 3.0 20 (E) 5.0* (E) 10-3 1021 PNP (C) 5S 100 100 (X) 23 70 1.0 1.0 5.0 _ _ TO0-3 2N1023A PNP 150 (C) 100 100 50 (0) 30 90 5.0 0.5 5.0 200 = (1) T0-3 2N1022 PNP 50 (CG) 95 120 120 (x) 23 70 5.0 1.0 5,0 _ _ T0-3 2N1022A PNP 150 (C) 100 12 55 (0) 30 90 5.0 05 5.0 _ 200 70-3 a PNP 90 (C) 100 30 (S) 20 60 10 1.0 10 YO (E) 2.0 (E T0-41 2N1031A PNP $0 (C) 100 60 40 (S) 60 10 1.0 10 10 (E) 2.0 (E) TO-41 2N1031B PNP 90 (C) 100 $0 70 (8) 10 1.0 10 10 (E) 2.0 (E) 10-41 2N1031C PNP 90 (C) 100 100 80 (S) 20 60 10 1,0 10 10 (E) 2.0 (E 10-41 2N1032 PNP 90 (C) 100 50 30 (S 50 10 10 1.0 10 25 (E) 2.0 (E) TO-41 2N1032A PNP (C) 100 60 40 (S) 50 100 10 1.0 10 25 (E) 2.0 (E) TO-41 2810328 PNP 90 (C) 100 90 70 (S$) 50 100 10 1.0 10 25 (E) 2.0 (E) TO-41 2N1032 PNP 90 (G) 1 100 80 (S) 50 100 10 10 10 25 (E) 2.0 () 70-41 1038 PNP 20 (C) 95 40 40 (V) 20 60 1.0 0.25 1.0 18 (E) 8.0 (E) 10-5 2N1099 PNP 50 (
/M 2N1016D Franel Corp PPC Product 2N1016E PPC Product 2N1016F PPC Product 2N1017 Franel Corp New Jersey 2N1018 Franel Corp New Jersey 2N1019 2N1020 2N1021 Delco Elecs New Jersey Semitronics Solitron TexslnstLtd 2N1021A Delco Elecs PPC Product SiliconTran 2N1022 Delco Elecs PPC Product Solitron TexslnstLtd 2N1022A Delco Elecs SiliconTran 2N1023 2N1024 Natl Semi Semicoa Spr~ueElec 2N102 New Jersey Semicoa 2N1026 NthAmerSemi Semitronics SprgueElec 2N1027 New Jersey Semicoa Motorola SiliconTran Solitron CSA Indus SiliconTran Solitron ACA Corp CSA Indus Gnrl Trans Sensitron CSA Indus Gnrl Trans Precsn Semi Sensitron CSA Indus Gnrl Trans Precsn Semi Sensitron CSA Indus Franel Corp PPC Product Sensitron CSA Indus Franel Corp PPC Product Sensitron Franel Corp Sensitron Syntar Ind Franel Corp Sensitron Franel Corp PPC Product Semitronics Sensitron CSA Indus Gnrl Trans Precsn Semi Sensitron CSA Indus Gnrl Trans Precsn Semi Sensitron Powerex Inc Elec Trans Gnrl Trans Semitronics Sensitron Powe
| - 30V [3A goc | 10wc 50K - 1sktp | 1A AHD | OBS | - 2N1021 PG | TO3 | Los | 100V | Sov | 30V [5A 95C | 85WC 200K | - 30/90 5A AHH | TIS | ASZ15 2N1533 2N1021A PG | TO3 | Los | 100v | 55V | 20v /7A 100c | 150wc 100K | - 30/90 5A AHH | OBS | ASZ15 2N1533 2N1022 PG |To3 | Los |120v | sov | 30v (5A gsc | sswe 2ook | - 30/90 5A AHH | TIS | ASZ15 2N1533, 2N1022A PG | TOs | tos | 120v | ssv | zov |7A 1o0c | 150WC 200K | - 30/90 5A AHH | OBs | ASZ15 2N1633 2N1023 PG | Toss | L36 | 4ov | - - | 10m | 100C | 120mwr | 50M 4Po | 20/175 | 1500uA | VLA | RCA | AF124 2N990 2N1028 PS | TOS | tos |18v | 15V gv |100mA | 175C | 250mWF | 1M 14P | Oman mA ALA | o8s | BCY32 2N1475 2N1025 Ps | Tos | tos |4ov | a5v | 4ov |100ma | 175C | 250mWF | 1M 14P | 9/22 1mA ALA | OBS | BCY32 2N1475 2N1026 PS | Tos | Lod | 4ov | a6v | 4ov | 100mA | 175C | 250mWF | 2M 14P | 19/44 ImA ALA | OBS | BCY32 2N1475 2N1026A PS | TOS | Loa |35vV { 35V | - | 100mA | 200C | s0omwr | 2M 14P | 36/88 ImA ALA | OBS | BCY32 2N1475 2N
R 2.050 B 1.730 o RR_ 2.050 c NJS 17.500 062 16.890 2N102/13 26.000 25.090 2N1021 GTC 2.680 NJS 3500 062 3.380 Se 3.000 GTC 3.190 6.500 NJS 6.270 QS2 GTC 3.360 NJS 3.300 3.190 QS2 5.600 SEI 2.240 3.250 3.140 2.750 2.660 5.500 5.310 2.800 2.750 2.650 4.500 2N1022A 14.000 13.510 2N1015A 2NO5L 24N60D1D 16.800 16.210 16,700 2N1015 2N05 8.470 a 6.960 o NJS 25.200 062 24.320 SEI 25.100 2N1014 27N60C3R IR 2N1022 2N1012 27N60C3DR 26.000 25.090 25.900 4.150 4.010 2N1011 25N20 23NO6LE HARR MOT 97.550 72.250 MHM NJS 40.000 062 38.600 39.900 SEI 2N102 4.500 4.340 2N1010 25N20 22N10 25.000 24.130 32.400 3.350 3.230 2.850 NJS 33.000 QS2 31.850 13.950 13460 GTC 5.880 NJS 5.800 062 5.600 4.900 4.800 4.630 2N1023 NJS QS2 Se 4.950 4.780 4.450 4.250 4.100 3.750 3.100 2.400 2.320 3.900 2.090 1.600 1.540 1.100 CRY 3.860 NJS 3.000 QS2 2.900 SEI 2.500 2.530 2.100 2.030 1.600 2N1024 CRY NJS QS2 Se 2N1025 2N1025 CRY 19.290 JAN CRY 3.420 1.900 NJS 1.830 QS2 2.100 SEI 12.770 2.340 1.530 1.450 1.600 2N1029 5.25
2N1022 2N1022A N1146 N1146A 2N1146B 2N1146C 2N1147 2N1147A 2N1147B 2N1147C 2N1160 2N4242 2N4243 2N4244 2N4245 2N4246 2N4247 2N5156 -40 ---40 -40 -60 --60 --60 -80 -80 -80 -100 -100 -120 -120 -40 -60 -80 -100 ---40 -60 -80 -100 -80 -80 -60 -40 -80 -60 -40 -100 CUTOFF CURRENT h FE @ VCE VEB ---40 -30 -30 --60 -40 -40 -80 -45 ---45 -50 -50 -55 -55 -30 -45 -60 -75 -30 -45 -60 -75 -60 -70 -55 -40 -70 -55 -40 -60 -20 -20 -30 -20 -20 -30 -20 -20 -30 -20 @ @ VCE Ic (A) Min. Max. VCB -1.5 -1.5 -1.5 -1.5 -1.5 -1.5 -1.5 -1.5 -1.5 -1.5 -1.5 -1.5 -1.5 -2.0 -2.0 -2.0 -2.0 -2.0 -2.0 -2.0 -2.0 -2.0 -2.0 -2.0 -2.0 -2.0 -2.0 -2.0 -2.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 10 30 30 10 30 30 10 30 30 30 30 30 30 60 60 60 60 60 60 60 60 20 40 40 40 60 60 60 25 - -20 ---40 -40 -30 -30 -30 ---40 ---40 ---40 -50 -50 -60 -60 -20 -30 ---40 -50 -20 -30 ---40 -50 -80 ---40 rnA I I I I ! I I i I I I I I I i