g transformer. See SETTINGS for instructions on how to set the DIP switches on the W8703 If the application is for 4-6 hydronic zones, connect an additional W8703 and a corresponding transformer. Wire the second W8703 COM terminal to terminal 4 on the R8222N1011, and terminal number 6 on the relay to zone 4-6 zone valves or circulator relays. For 7-9 hydronic zones use the normally open contacts on a 4PDT 4 pole relay in the same way for each of the three W8703 panels. OT 2 1 3 OT T8635L OT 2 1 OT 3 W8635A FAN RELAY 2 4 5 6 Z 1 2 3 X G C W1 R W2 Y1 RH RC Y2 SYSTEM TRANSFORMER OPEN CLOSE HEAT 1 RELAY 3 L2 HEAT 2 RELAY COOL 1 RELAY 4 5 6 Z 1 2 3 X OPEN CLOSE OPEN CLOSE COOL 2 RELAY 1 1 1 2 3 W8703A 1 L1 (HOT) OT 4 5 6 Z 1 2 3 X ZONE A 4. 9. See Fig. 4 to wire the T8635L, W8635A and W8703A in forced air systems. See Fig. 5 and 6 to wire hydronic heat with V8043 zone valves. See Fig. 7-9 to wire hydronic heat with circulators. See Fig. 10 to wire hydronic heat with V8043 zone valves and an indirect w
ted using an advanced bipolar process giving rugged latch-up free operation Sufficient ground pins to ensure adequate noise margins under worst-case interface conditions The ZN10110 is available in a type C plastic quad- pack for surface or socket mounting2N10110 ELECTRICAL CHARACTERISTICS AND DC PARAMETERS Test conditions (uniess otherwise stated): All values are at Vcc = 5V and Tapp =O to + 70C Parameter Symbol | Min. | Typ. | Max. | Unit | Conditions Supply voltage Vec 4.75 | 5.0 5.25 Vv Input high voltage Vin 2.0 - 5.5 Vv Input low voltage Vie Oo _ 0.8 Vv Negative threshold Vr - 1.1 - Vv SCSI Inputs Positive threshold VT4 - 1.7 - Vv SCSI Inputs - - 20 pA | SCSI Inputs . - - 100 pA | D7-DO Input high current (Vi, = Vcc) hy - - 10 pA | Other MPU Inputs - - 10 pA | SOPT3-0 - - -10 | wA | SCSI Inputs Input low current (Vin = Vcc) Mi ~ ~ ~10 | #A | 07-D0 - - 0.6 | mA | Other MPU Inputs - - -1.0 | mA | SOPT3-0, ALE Output high voltage (MPU signals) Von 2.4 | 3.4 ~ Vo] Veco =4.759V, lout = lor Outpu
0.25} O.1A| 40/E IN1008A | G} P 6-24 | aval o.3w |c]} 85) 40 35 1R 0.25} OA) 4olz 2N1008B | G} P 6-24 | AFA| 0.3W | C] 85] 60 55]R 0.25] O.1A} 40} E 2n1009 | G] P AFA| 0.4w | CT 85] 35 35]R 0.25| O.1A] 40]E] 7.5K] E 2n1010 | G| N Arc| 20m |al 55] 10 10] 0 2N1011 | G{ P 7-44 | tpal 35w {cl 95] 80 8015] 30] 75] 3.0A] 1.5] 3.0A] 20} E] 5.0K] E 2N1012 | G] N wsa] 150M | A] 100} 40 22/0] 40 100M| 0.2] 100M 3.0M] E 2n1014 |G] P| 2N1552] 7-67 | LPA}] 5ow |c} 100} 100 65]0} 20] 50] 4.0A] 0.8] 4.04 0.5M} B 2N1015 {S| N| 2N3713} 7-125 | Pms| i50ow | c[ 150} 30 30 |v] 10 2.0A| 1.5| 2.0A 3N1O15A | STN pms | 150w | c[ 150] 60 60; Vv] 10 2.0A[ 1.5] 2.0A 2N1015B| ${ N pas | 150w | c] 150} 100 | 100|v] 10 2.0A| 1.5] 2.04 2N1015c | S$] N pms | 1507 | c}] 150] 150 | 150] v]. 1o 2.0A| 1.5] 2.04 2NL015D | S| N pms | 150w | Cc} 150] 200 | 200] Vv] 10 2.0A} 1.5] 2.0 2NLOLSE | S| N pms | isow | c}] 150] 250 | 250|v] lo 2.0A| 1.5] 2.04 2N1915F | S| N pms | 150W | c}150| 300 | 300] v]| 10 2.0A| 1.51 2.0 2nLo16 |s| N{ 2n3
1000 5. AUX1 OUT PROGRAM TO SYS IN SYSTEM SETUP MENU JADE W7220A1000 MS3103J1030 COMMUNICATING DCA AUX2-I OCC E-GND 1 2 3 4 5 AUX1 OUT Y2I Y2O Y1I Y1O C R C R PRESTIGE THX9421R5013 EIM TO THERMOSTAT CONV POWER HEAT STATUS LEDS COOL FAN U1 U2 U3 A RELAY R822N1011 1 3 KIT WITH PRESTIGE AND EIM YTHX9421R5051 1 EIM THM5421R1013 R C SENSORS 1 TRANSFORMER 24 VAC 120 VAC THE TRANSFORMER NEEDS TO BE 100VA. M35158 Fig. 12. Prestige and EIM with communicating actuator. 63-2700--11 10 JADETM ECONOMIZER MODULE ROOF TOP UNIT MA TEMP SENSOR 20K NTC W7220 ECONOMIZER CONTROLLER MODULE O/B MAT MAT G W1 Y2 W2 8 1K1 AUX2-I OCC E-GND S-BUS S-BUS CO2 SENSOR 2-10 VDC (OPTIONAL) Y1 OCC G Y1 Y2 AUX1-0 W1 Y2I IAQ (2-10V) IAQ COM IAQ 24V ACT (2-10V) ACT COM ACT 24V Y2O Y1I Y1O 1K1 C C R R(+) 24 VAC 1 2 C(-) 7 MS3103J 3 S-BUS OR MS3105J 4 S-BUS THERMOSTAT 5 C7400S RETURN AIR TEMP/HUMIDITY (ENTHALPY) SYLKBUS SENSOR Y1 W1 C 1 Y2 C C C 3 2 G BASIC I/O BOARD C TERMINAL 4 6 8 5 NOTES: SEE INSTALLATION INSTRUCTIONS 62-0331 FOR S
u rclFy Wii 3-AMP INDUSTRIAL POWER TRANSISTORS AUTOMOTIVE 2-WATT AUTOMOTIVE 4-WATT 3-AMP INDUSTRIAL POWER TRANSISTORS 10-AMP INDUSTRIAL POWER TRANSISTORS 15-AMP INDUSTRIAL POWER TRANSISTORS Type 2N1359 2N1360 2N375 2N618 2N1362 2N1363 2N1364 2N1365 2N297A 2N1011 Type 2N176 2N178 2N554 2N555 2N669 2N350A 2N351A 2N376A Type 2N1529 2N1530 2N1531 2N1532 2N1533 2N1534 2N1535 2N1536 2N1537 2N1538 2N1539 2N1540 2N1541 2N1542 2N1543 2N1544 2N1545 2N1546 2N1547 2N1548 Case 4 2N627 2N628 2N629 2N630 Case 3 2N1549 2N1550 2N1551 2N1552 2N1553 2N1554 2N1555 2N1556 2N1557 2N1558 2N1559 2N1560 Case ee Case Mh BORO RS Bo Bo Case WWW Wi Www eRe ee Case 3 MNG61A MN62A MN63A MNG64A Case 4 2N1120 MP1549 MP1550 MP1551 MP1552 MP1553 MP1554 MP1555 MP1556 MP1557 MP1558 MP1559 MP1560 P. watts 90 90 90 90 90 90 90 90 90 90 P.. watts 90 40 40 40 90 90 90 90 P watts 90 90 90 90 90 590 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 MAXIMUM RATINGS T; BVeno BV ins OE volts volts 1
30 25 90 2.0 7 .40 3.0 .300 2N351A |TO-3 50 25.0 40 25 90 2.0 7 1.75 4.0 400 2N376 |TO-3 50 10.0 30 35 120 2.0 7 40 3.0 .300 2N376A | TO-3 50 25.0 40 35 120 2.0 7 1.75 5.0 500 2nN665 |TO-3 80 40.0 40 80 2.0 5 90 3 .200 2N669 |TO-3 40 20.0 30 75 250 2.0 5 2N1011 |TO-3 80 40 40.0 80 30 75 2.0 3.0 15 3.0 .20050 GERMANIUM POWER TRANSISTORS TYPICAL SWITCHING TIMES Mol & ton & % toft Vce Ic EL TYPE o NUMBER ciw ps pS ps ps ps Vv A 2 AMP GERMANIUM PNP Observe (--) Negative Polarity 2.20 G4 2N250 2.20 G4 2N251 3.00 G4 2N296 1,00 G4 2N301 1.00 G4 2N301A 1.50 G4 2N307A 3 AMP GERMANIUM PNP Observe () Negative Polarity 2.20 G5 CA2D2 3.00 G4 2N155 80 G4 2N176 1.50 G4 2N235A 1.50 G4 2N236A 1.50 G4 2N236B 3.00 G4 2N242 3.00 G4 2N255 3.00 G4 2N256 1.50 G4 2N268 G4 2N285A G4 2N285B 2.00 G4 2N297A 1.20 Ga 2N375 80 G4 2N392 1.50 G4 2N399 2.20 G5 2N538 2.20 Gs 2N538A 2.20 GS 2N539 2.20 G5 2N539A 2.20 GS 2N540 2.20 G5 2N540A 1.00 G4 2N554 1.00 G4 2N555 1.20 G4 2N618 80 G4 2N1359 80 G4 2N1360 80 G4 2N1362 .80 G4 2N13
30 25 90 2.0 7 .40 3.0 .300 2N351A |TO-3 50 25.0 40 25 90 2.0 7 1.75 4.0 400 2N376 |TO-3 50 10.0 30 35 120 2.0 7 40 3.0 .300 2N376A | TO-3 50 25.0 40 35 120 2.0 7 1.75 5.0 500 2nN665 |TO-3 80 40.0 40 80 2.0 5 90 3 .200 2N669 |TO-3 40 20.0 30 75 250 2.0 5 2N1011 |TO-3 80 40 40.0 80 30 75 2.0 3.0 15 3.0 .20050 GERMANIUM POWER TRANSISTORS TYPICAL SWITCHING TIMES Mol & ton & % toft Vce Ic EL TYPE o NUMBER ciw ps pS ps ps ps Vv A 2 AMP GERMANIUM PNP Observe (--) Negative Polarity 2.20 G4 2N250 2.20 G4 2N251 3.00 G4 2N296 1,00 G4 2N301 1.00 G4 2N301A 1.50 G4 2N307A 3 AMP GERMANIUM PNP Observe () Negative Polarity 2.20 G5 CA2D2 3.00 G4 2N155 80 G4 2N176 1.50 G4 2N235A 1.50 G4 2N236A 1.50 G4 2N236B 3.00 G4 2N242 3.00 G4 2N255 3.00 G4 2N256 1.50 G4 2N268 G4 2N285A G4 2N285B 2.00 G4 2N297A 1.20 Ga 2N375 80 G4 2N392 1.50 G4 2N399 2.20 G5 2N538 2.20 Gs 2N538A 2.20 GS 2N539 2.20 G5 2N539A 2.20 GS 2N540 2.20 G5 2N540A 1.00 G4 2N554 1.00 G4 2N555 1.20 G4 2N618 80 G4 2N1359 80 G4 2N1360 80 G4 2N1362 .80 G4 2N13
.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 5.250 5.070 4.750 4.200 4.050 3.700 NJS 12.000 0S2 11,580 10.250 9.890 NJS QS2 SEI 2N103 3.650 3.520 3.150 NJS QS2 SEI 2N1028 21.000 20.270 2N1018 2N1021A NJS 22.000 QS2 21.230 3.100 1.590 1.450 1.850 2N1029B 3.350 3.230
2N1011 2N1136 2N1136A 2N1136B N1137 N1137A 2N1137B 2N1138 2N1138A 2N1138B 2N1159 2N1529 2N1529A 2N1530 2N1530A 2N1531 2N1531A 2N1532 2N1532A 2N1533 2N1534 2N1534A 2N1535 2N1535A 2N1536 2N1536A 2N1537 2N1537A 2N1538 -40 -60 -60 -90 -100 -60 -90 -100 -80 -60 -90 -100 -60 -90 -100 -60 -90 -100 -80 -40 -40 -60 -60 -80 -80 -100 -100 -120 -40 -40 -60 -60 -80 -80 -100 -100 -120 -25 -35 -40 -70 -80 -40 -70 -80 -40 -30 -55 -65 -30 -55 -65 -40 -70 -80 -60 -20 -30 -30 -45 -40 -60 -50 -75 -60 -20 -30 -30 -45 -40 -60 -50 -75 -60 -20 -20 -15 -15 -15 -15 -15 -15 -40 -15 -15 -15 -15 -15 -15 -15 -15 -15 -20 -20 -20 -30 -30 -40 -40 -50 -50 -60 -20 -20 -30 -30 -40 -40 -50 -50 -60 -1.5 -1.5 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -2.0 -5:0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -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 -2.0 -2.0 -2.0 -2.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -3.0 -
CES PKG 2N58A R173 2N629 T03 2N2144A = T08 (2N2612 T03 2N5436 T03 2N143/13 = T0713 2N630 TO3 2N2145A = T03 2N2833 T03 *2N5437 T03 2N174A T036 2N665 TO3 2N2146A = =TO03 2N2834 TO3 2N5438 TO3 2N277 T036 *2N669 T03 2N2152 T85 2N2912 R74 2N5439 T03 2N278 T036 2N1011 TO3 2N2152A = T85 2N4048 T036 *2N5440 TO3 2N297A TO3 2N 1038 R122 2N2153 T85 2N4049 T036 2N5887 T066 2N350 T03 2N1042 T6 2N2154 T85 2N4050 T036 2N5888 TO66 2N351 TO3 2N1073 T15 2N2155 T85 2N4051 T036 2N5889 TO66 2N375 TO03 2N1073A =F 15 2N2155A = T85 2N4052 T036 2N5890 TO66 2N376 TO3 2N1099 T036 2N2156 T85 2N4053 T036 2N5891 TO66 2N379 T03 2N1100 T036 2N2156A = T85 2N4276 T03 2N5892 TO66 2N380 TO3 2N1159 TO3 ~ 2N2157 T85 2N4277 T03 2N5893 TO66 2N441 T036 2N1261 T36 2N2157A ~s T85 2N4278 TO3 2N5894 TO66 2N442 T036 2N1502 TO36 = -2N2158 T85 2N4279 T03 2N5895 TO66 2N443 TO36 2N1521 T036 2N2158A = T85 2N4280 TO3 2N5896 TO66 2N456A TO3 2N1541A = T03 ~2N2159 T85 2N4281 T03 2N5897 TO66 2N458A TO3 2N1751 F35 2N2553 T27 2N4282 TO3 2N5898 TO66 2N45
44A 2N3314 MP1530 2N1529 2N1529A 2N3215 MP1535 2N1534 ~r:,~~~~A 55 60 2N1539 2N1540A COT1110 CQT1110A 2N3312 MP1545 2N1545 2N1545A ~~~~~ *65 70 40254 40022 2N307A CDT1310 CDT1319 MP259 2N639 MP1531 ~~~~~5A 75 80 * * 85 90 * 2N350A 2N379 2N351A MP277 2N637 2N1011 2N3214 MP1536 ~~~~A 2N2148 AD166 2N2066A 2N1541A 40050 40462 40462 40462 ~~~~~3 MP1546 2N1546 858 Min Max (Hz) leBO Max (A) t, Max (8) tf Max PD Max TOper Max (8) (W) (Oe) Package Style See Index See Index See Index See Index See Index See Index See Index See Index See Index See Index See Index NthAmerSemi Germanium See Index See Index See Index See Index Germanium NthAmerSemi See Index 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 4.0 4.0 4.0 4.0 4.0 4.0 4.0 4.0 4.0 4.0 60 60 60 60 60 60 60 70 80 100 20 20 20 20 30 40 45 25 20 20 20 20 25 25 25 40 40 40 40 30 25 50 150 12 20 20 25 60 See Index NthAmerSemi See Index See Index See Index See Index NthAmerSemi See Index See Index Germanium see Inaex Germanium See Index Solid Stine Elee Trans See I
20 60 10 1.0 10 _ _ TO-41 7 PNP 90 (C) 100 50 20 (0) 50 100 10 1.0 10 _ _ T0-41 2N678A PNP 90 (C) 100 60 30 (0) 50 100 10 1.0 10 ~ T0-41 2N678B PNP 90 (C) 100 90 60 (0) 50 100 10 10 10 _ _ TO-41 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
0.25} O.1A| 40/E IN1008A | G} P 6-24 | aval o.3w |c]} 85) 40 35 1R 0.25} OA) 4olz 2N1008B | G} P 6-24 | AFA| 0.3W | C] 85] 60 55]R 0.25] O.1A} 40} E 2n1009 | G] P AFA| 0.4w | CT 85] 35 35]R 0.25| O.1A] 40]E] 7.5K] E 2n1010 | G| N Arc| 20m |al 55] 10 10] 0 2N1011 | G{ P 7-44 | tpal 35w {cl 95] 80 8015] 30] 75] 3.0A] 1.5] 3.0A] 20} E] 5.0K] E 2N1012 | G] N wsa] 150M | A] 100} 40 22/0] 40 100M| 0.2] 100M 3.0M] E 2n1014 |G] P| 2N1552] 7-67 | LPA}] 5ow |c} 100} 100 65]0} 20] 50] 4.0A] 0.8] 4.04 0.5M} B 2N1015 {S| N| 2N3713} 7-125 | Pms| i50ow | c[ 150} 30 30 |v] 10 2.0A| 1.5| 2.0A 3N1O15A | STN pms | 150w | c[ 150] 60 60; Vv] 10 2.0A[ 1.5] 2.0A 2N1015B| ${ N pas | 150w | c] 150} 100 | 100|v] 10 2.0A| 1.5] 2.04 2N1015c | S$] N pms | 1507 | c}] 150] 150 | 150] v]. 1o 2.0A| 1.5] 2.04 2NL015D | S| N pms | 150w | Cc} 150] 200 | 200] Vv] 10 2.0A} 1.5] 2.0 2NLOLSE | S| N pms | isow | c}] 150] 250 | 250|v] lo 2.0A| 1.5] 2.04 2N1915F | S| N pms | 150W | c}150| 300 | 300] v]| 10 2.0A| 1.51 2.0 2nLo16 |s| N{ 2n3
20 60 10 1.0 10 _ _ TO-41 7 PNP 90 (C) 100 50 20 (0) 50 100 10 1.0 10 _ _ T0-41 2N678A PNP 90 (C) 100 60 30 (0) 50 100 10 1.0 10 ~ T0-41 2N678B PNP 90 (C) 100 90 60 (0) 50 100 10 10 10 _ _ TO-41 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
.0 -1.0 -1.0 germanium power transistors 147 See Pg. 147 for outline drawing PNP ALLOY TRANSISTORS (3.0 Amp) BREAKDOWN VOLTAGES CUTOFF CURRENT hFE TYPE NUMBER V eB VeE VEB VeE Ie (A) Min. Max. V eB rnA 2N250A 2N251A 2N637 2N637A 2N637B 2N638 2N638A 2N638B 2N1011 2N1136 2N1136A 2N1136B N1137 N1137A 2N1137B 2N1138 2N1138A 2N1138B 2N1159 2N1529 2N1529A 2N1530 2N1530A 2N1531 2N1531A 2N1532 2N1532A 2N1533 2N1534 2N1534A 2N1535 2N1535A 2N1536 2N1536A 2N1537 2N1537A 2N1538 -40 -60 -60 -90 -100 -60 -90 -100 -80 -60 -90 -100 -60 -90 -100 -60 -90 -100 -80 -40 -40 -60 -60 -80 -80 -100 -100 -120 -40 -40 -60 -60 -80 -80 -100 -100 -120 -25 -35 -40 -70 -80 -40 -70 -80 -40 -30 -55 -65 -30 -55 -65 -40 -70 -80 -60 -20 -30 -30 -45 -40 -60 -50 -75 -60 -20 -30 -30 -45 -40 -60 -50 -75 -60 -20 -20 -15 -15 -15 -15 -15 -15 -40 -15 -15 -15 -15 -15 -15 -15 -15 -15 -20 -20 -20 -30 -30 -40 -40 -50 -50 -60 -20 -20 -30 -30 -40 -40 -50 -50 -60 -1.5 -1.5 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -2.0 -5:0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0 -5.0