1775470 C O D I SEMICONDU CTOR INC 90D 00581 40 nef L?7?75470 OO000581 4 CODI Semiconductor, Inc. JEDEC REGISTERED VOLTAGE VARIABLE CAPACITOR SPECIFICATION LIST JEDEC REGISTERE VOLTAGE VARIABLE CAPACITORS D : Cj Ratio Cj +9, AC/AT Q Ie max. @ Vr TYPE @4, imhe Ci, /Ci2 @ Vi/V2 (% /C) @ 4V, 50 mhz eae c ae - {A BIC|D min. max. TN950 35 20 0.03 7 10 | 130 iN951 50 20 24 1/10 0.03 7 1.0 80 1N952 70 20 24 1/10 0.03 7 1.0 60 1N953 100 20 24 1/10 0.03 7 1.0 25 1N954 35 20 24 1/10 0.03 7 1.0 25 1N955 50 20 24 1/10 0.03 7 1.0 25 1N956 70 20 2.4 1/10 0.03 7 1.0 25 1N3182 33 30 14@500KHZ a/i0 we200MHzZ | 5.0 20 1N3488 56 10 25 0.1/15 0.03 7 1.0 15 1N3561 50 6 1.35 11 4/8 0.03 _ 30 0.2@85C | 10 1N3552 21.25 6 1.35 141 4/8 0.03 25 o.1@85C | 20 0.1 50 1N3554 12 20 45 2/80 0,03 60 10 110 0.1 50 1N3555 20 20 45 2/80 0.03 60 19 110 0.1 50 1N3556 47 10 6.4 1/100 0.03 100 10 110 24@8" 20 5.0 4/200 0.1 50 1N3557 55 5@1 19 8.9 1/200 0.03 75@8Y 10 210 4% (40 to +25C) jins94s | 20@50MHZ_ | 10] | | 145 3/5 | 2% 25 to +85C) 7 10 | 20 | 60@6Y,50MHZ | 10 6:2% (40 to +2500) g@EY 1N3946 71@4 50MHZ | 12 1.32 aia | av.a% (~a0to 250c) | 7@4 1.0 9 2% ( 25 to +859C) 4% (40 to +250C) 1N3947 70 20 1.15 3/5 | 2%( 25 to +85C) g 1.0 9 1N4598 2206" 20 45. |..._|. 2/80 003 50 0.4 80 1N4599 a7@50MHZ__| 5 50 2/100 0.1 100 05 | 100 1N4609 2 15 35 130 0.04 60 05 30 1N4786,A-D 6.8 2on0l5 |2|1 | 3:08 B17 4725 | 5% (-40 to +85C) 15 (750@IMHZ)|_5nA__| 25 1N4787,A-D 8.2 2oio}s|2|1| 3:13 330 ayes | 5% (-40 to +85C) 15 (750@IMHZ)| _5nA 25 1N4788,A-D 10 zofiols{2|1| 3:37 3736 oS | 5% (40 to +85C) 15 (750@IMHZ)| _5nA 25 1N4789,A-D 12 20io|5|2|1| 238 227 ayes | 5% (-40 to +85C) 15 (750@IMHZ)}__5nA 25 1N4790,A-D 15 200l5|2/1} 3:23 328 Bes | 5% (40 to +85C) 15 (750@IMHZ)| 5nA_ | 25 1N4791,A-D 18 2o|io|5|2|1| 3:01 3:08 ajz0_| 5% (~40 to +85C) 15 (750@IMHZ)| _5nA 20 1N4792,A-D 22 2oliois|2|1| 301 | 20s = |_ajzo._| 5% (-40 to +85C) 15 (750@IMHZ}| _5nA_ | 20 1N4793,A-D 27 2o|10/5{2}1| die. 3:06 OAD | 5% (40 to +85C) 15 (750@IMHZ)| _5nA 20 1N4794,A-D 33 20|10/5{2|1| 3:02 3:06 O48 | 5% (-40 to-+85C) 15 (750@IMHZ)|__5nA 20 1N4795,A-D 39 20|10|5|2 {1 | 3:02 307 azo | 5% (40 to +85C) 15 (750@IMHZ)| _5nA 20 1N4796,A-D 47 2olio|5|2|1| 2:03 3:07 gio | 5% (40 to +85C) 15 (750@IMHZ}|__50A 20 1N4797,A-D 56 2o|tofs|2]1 | ia 162 as | 5% (-40 to $85C) 15(750@IMHZ)| 5nA | 15 1N4798,A-D 68 2oio|5|2|1| ie tee a7is_ | 5% (40 to +85C) 15 (750@IMHZ}|__5nA 15 1N4799,A-D 82 2olio{s}2}1}| i3s {ae ans | 5% (40 to +85C) 15 (750@IMHZ)| _5nA 15 1N4800,A-D 100 2oj10/5|2|1| ei 83 ays | 5%(40to+85C) | 15 (750@IMHZ)| 5nA_ | 15 1N4801,A-D 68 2ojiols|2}1| 3:st 5188 ayvoo | 5% (-40 to +85C) 15 (750@IMHZ)] 5nA | 100 1N4802,A-D 8.2 2o|10/5|2:1| 3:33 3:80 Broo | 5% (40 to +85C) 15 (750@IMHZ)|_ 509A | 100 1N4803,A-D 10 20|10[5| 2 11 332 | 33 | ao | 5% (-40 to +85C) 15 (750@IMHZ)| 5nA__ | 100 1N4804,A-D 12 2o|10/5}2'1] 3! 4713 ajioo | 5% (40 to +85C) 15(750@IMHZ)| 5nA | 100 TOLL-FREE: 1-800-232-COD! TELEX: 844-796 FAX NUMBER: 201-298-04771775470 C O D I SEMICONDUCTOR INC 90D 00582 BD 7-07-19 40 pe far7su70 000058 Cj Ratio cj +% Inmax @ Vr TYPE @4, i mhz Ci\/Ci,__@ Va/Vs Acar @ av, 50 mhz [22C 7 (Pf) ~|AlBilc{ip min max B volts 1N4805,A-D 15 2o|10/512 41] 3'37 a3 SAG | 5% (40 to +85C) 15(750@IMHZ)| 5nA | 100 1N4806,A-D 18 2oliols|2 41] 3:58 ee 846 | 5% (40 to +85C) 15 (750@IMHZ)| _5nA 90 1N4807,A-D 22 aoliols|2 {1} 3:37 as gMo | 5% (40 to +85C) 15 5nA 90 1N4808,A- D 27 2ol10/5|2 11] 3:3 563 oa | 5% (-40 to +85C) 15 5nA 65 1N4809,A-D 33 goliolsj2|1 4 3:38 548 S760 | 5% (40 to +85C) 15 5nA 60 1N4810,A-D 39 20l10|5|2 |1 | 3:27 3:33 oAe | 5% (~40 to +85C) 15 5nA 55 1N4811,A-D al 2olio(sl2{1] 333 538 BAG | 5% (40 to +85C) 15 5nA 50 1N4812,A-D 56 golols|2i1 | 3:85 3:89 SAG | 5% (40 to +85C} 15 5nA 40 1N4813,A-D 68 20ii0/5|2|1.| 3:48 ey ao | 5% (40 to +85C) 15 5nA 30 1N4814,A-D 82 2ol1o|s|2 {1 | 39 B60 oA0 | 5% (40 to +85C) 15 5nA 20 {1N4815,4-D 100 2oj10|5|2|1 | 3:7 589 Bay | 5% (~40 to +85C) 15 5nA 20 1N5139,A 68 10] 515 27 4/60 0.03 350 0.02 55 JAN,TX1N5S139A | 6.8 5 27 4/60 0.03 350_ 0.02 55 1N5140,A 10 10! 5 28 4/60 0.03 300 0.02 55 JAN,TX1N5140A | 16 5 28 4/60 0.03 300 0,02 55 1N5141,A 12 10/5 28 4/60 0.03 300 0.02 55 JAN,TXINSI41A | 12 5 28 4/60 0.03 300 0.02 55 1N5142,A 15 10/5 28 4/60 0.03 250 0.02 55 JAN,TX1N5142A | 15 5 28 4/60 0.03 250 0.02 55 1N5143,A 18 10/5 28 4/60 0.03 250 0.02 55 JAN,TXIN5S143A | 18 5 28 4/60 0.03 250 0.02 55 1N5144,A 22 10] 5 32 4/60 0.03 200 0.02 55 JAN,TXIN5S144A | 22 5 3.2 4/60 0.03 200 0.02 55 1N5145,A 21 10/5 32 4/60 0.03 200 0.02 55 JAN,TXIN5S145A | 27 5 32 4/60 0.03 200 0.02 55 INSI46A 33 10| 5 32 4/60 0.03 200 0.02 55 JAN,TX1N5146A | 33 5 32 4/60 0.03 200 0.02 55 1N5147,A 39 10] 5 32 4/60 0.03 200 0.02 55 JAN.TXIN5S147A | 39 5 32 4/60 0.03 200 0.02 55 7N5148,A 48 10] 5 32 4/60 0.03 200 0.02 55 JAN,TXIN5148A | 48 5, 3.2 4/60 0.03 200 0.02 55 1N5440,A-D 47 mliolsl2it| 24 31 2/30 0.04 450 0.02 25 1N5441,A-D 68 20\10)5/2 1/14 25 3.1 2/30 0.04 450 0.02 25 1N5442,A-D 82 20\1015|2|1 4} 25 3.1 2/30 0.04 450 0.02 25 1N5443,A-D 10 20\10}5/2111 2.6 3.1 2/30 0.04 400 0.02 25 1N5444,A-D 12 20|1015/211| 26 3.1 2/30 0.04 400 0.02 25 1N5445,A-D 15 20\10/5}2}1 |] 2.6 3.1 2/30 0.04 400 0.02 25 1N5446,A-D 18 oliols|211| 26 3.1 2/30 0.04 350 0.02 26 1N5447,A-D 20 2oj10|s|2 {1} 26 3.1 2/30 0,04 350 0.02 25 1N5448,A-D 22 20/10(5/2|1| 2.6 3.2 2/30 0.04 350 0.02 25 1N5449,A-D 27 20110/5]2}1 | 2.6 3.2 2/30 0.04 350 0.02 25 1N5450,A-D 33 20110|5|211] 26 3.2 2/30 0,04 350 0.02 25 1N5451,A-D 39 20|10|5|2|1] 26 32 2/30 0.04 300 0.02 25 1N5452,A-D a7 70|1015|2 11 | 2.6 3.2 2/30 0.04 200 0.02 25 1N5453,A-D 56 2oji0}si2}1] 26 3.3 2/30 0.03 200 0.02 25 1N5454,A-D 68 2oj10|s|211] 2.7 3.3 2/30 0.03 175 0.02 25 1N5455,A-D 82 20|10/5|211| 2.7 33 2/30 0.03 175 0.02 25 1N5456,A-D 100 olia(si2|1| 2.7 3.3 2/30 0.03 175 0.02 25 1N5457,A-D 120 2ojio{s|2}1| 2.7 33 2/30 0.03 150 0.02 25 1N5458,A-D 39 20/10/5/211| 25 3.1 2/30 0.03 600 0.02 25 1N5459,A-D 4] 20|10|/5|2|1| 2.6 3.1 2/30 0.03 600 0.02 25 1N5460,A-D 5.6 20|10(5|/211| 2.6 3.1 2/30 0.03 600 0.02 25 1N5461,A-D 68 aoliolsi2't| 27 3.1 2/30 0.03 600 0.02 25 1N5462,A-D 82 2ojio}si2i1] 28 3.1 2/30 0.03 600 0.02 25 1N5463,A-D 10 2oliols|2t1{ 28 3.1 2/30 0.03 550 0.02 25 1N5464,A-D 12 20110/5}211| 28 3.1 2/30 0.03 550 0.02 25 1N5465,A-D 15 2olo|s|2}1| 28 3.1 2/30 0.03 550 0.02 25 1N5466,A-D 18 20/10|8/2/1| 29 3.1 2/30 0.03 500 0.02 25 1N5467,A-D 20 20}10/5}211| 29 3.1 2/30 0.03 500 0.02 25 ie1775470 C O D I SEMICONDUCTOR INC 90D 00583 D 07-19 40 pe Ba77s5470 goo00583 7? i : Cj Ratio . Cj +% In max. TYPE @ 4, 1 mhz " Cis /Cia @ Vi /V2 Aho @4v, 30 mhz [@ i : (Pf) -l|AIB/CID min. max. u 1N5468,A-D 22 20/10)5)2 |1 29 3.2 2/30 0.03 500 0.02 1N5469,A-D 27 20/10) 5|2 |1 2.9 3.2 2/30 6.03 500 0.02 1N5470,A-D 33 20/10/5}2 | 1 29 3.2 2/30 0.03 500 0.02 1N5471,4-D 39 20/10|5 42 |1 29 3.2 2/30 0.03 450 0.02 1N5472,A-D 47 20}10|5 42 |1 23 3.2 2/30 0.03 400 0.02 1N5473,4-D 56 20)10)5 42 | 1 29 3.3 2/30 0.03 300 0.02 1N5474,A-D 68 20}10|5)2 | 1 2.9 3.3 2/30 0.03 250 0.02 1N5475,A-D 82 _ | 20/10) 5 {2 | 1 29 3.3 2/30 0.03 225 0.02 1N5476,A-D 100 , 20/10 }512 ;1 29 3.3 2/30 0.03. 200 0.02 1N5681,A,B .8 20/10} 5 3.1 3.3 Typ. 4/40 0.03 600 0.02 1N5682,A,B 8.2 20)10| 5 3.1 3.3 Typ. 4/40 0.03 600 0.02 1N5883,A,B 10 20110} 5 3.2 3.4 Typ. 4/40 0.03 550 0.02 1N5684,A,B 12 - | 20)1015 3.2 3.4 Typ. 4/40 0.03 550 0.02 1N5685,A,B 15 20/10} 5 3.2 3.4 Typ. 4/40 0.03 550 0.02 1N5686,A,B 18 20}10|5 3.2 3.4 Typ. 4/40 0.03 500 0.02 1N5687,A,8 22 20/10)5 3.3 3.5 Typ. 4/40 0.03 500 , 0.02 1N5688,A,B 27 20;10)5 3.3 3.5 Typ. 4/40 0.03 500 0.02 1N5689,A,B 33 20)10)5 3.3 3.5 Typ. 4/40 0.03 500 0.02 1N5690,A,B 39 20:10) 5 3.3 3.5 Typ 4/40 0.03 450 0.02 1NS691,A,B | 47 2011015 3.3 3.5 Typ. | 4/40 _0.03 400 | 0.02 1N5692,A,B 56 20/10 |5 3.3 3.5 Typ. 4/40 0.03 . 300 0.02 1N5693,A,B 68 20/10|5 3.3 3.5 Typ. 4/40 0,03 250 0.02 1N5694,A.B 82 20/10/5 3.3 3.5 Typ. 4/40 0.03 225 0.02 1N5695,A,8 100 20110|5 3.3 3.5 Typ. 4/40 0.03 200 0.02 IN5696,A,B | 6.8 20/105 27 29Typ. | 2/60 0.03 450 0.02 1N5697,A,B 8.2 20)10|5 27 2.9 Typ. 2/60 0.03 450 0,02 1N5698,A,8 10 20/10 ;5 2.8 3.0 Typ. 2/60 0.03 400 0.02 1N5699,A,B 12 20;1015 28 3.0 Typ. 2/60 0.03 400 0.02 1N5700,A,B 15 20)10/5 28 3.0 Typ. 2/60 0.03 400 0.02 1N5701,4,B 18 20}10/5 28 3.0 Typ. 2/60 0.03 375 0.02 1N5702,A,8 22 20:10;5 3.2 3.4 Typ. 2/60 0.03 375 0.02 1N5703,A,8 27 20/10 }5 3.2 3.4 Typ. 2/60 0.03 350 0,02 1N5704,A,B 33 20);10}5 3.2 3.4 Typ. 2/60 0.03 350 0.02 1N5705,A,B 39 20|10}5 3.2 3.4 Typ. 2/60 0.03 325 0.02 HINS706,A,B | __47 30:10 !5 3.2 3.4Typ. | 2/60_ 0.03 300 0.02 1N5707,A,B 56 20}10;5 3.2 3.4 Typ. 2/60 0.03 225 0.02 1N5708,A,B 68 20'10|5 3.2 3.4 Typ. 2/60 0.03 175 0.02 1N5709,A,B 82 20110)5 3.2 3.4 Typ. 2/60 0.03 150 0.02 1N5710,A,B 100 20110!5 3.2 3.4 Typ. 2/60 0.03 150 0.02 CASE OUTLINE NOTE: All above VVCs are available in JEDEC Registered DO-7 cases 10 MIN. | .300 MAX.b 1.0 MIN. | 020 -- .002 040 096 = .010 DO-7 (400mw @ 50C)1775470 & 0 > 4775470 OODOSBY 4 I ss. p 7.0719 FIGURE OF MERIT (Q) vs. CAPACITANCE (C) vs. REVERSE VOLTAGE (Vj) REVERSE VOLTAGE (V;) i a C 0 D I SEMICONDUCTOR INC $000 $0 cee 3000 1000 700 Q, FIGURE OF MERIT INS1 INS144A 3 300 IN5148A C,, DIODE CAPACITANCE (pF, IN5139A IN5144A IN5148A 100 1 1 3 5 7 10 4500 10 30. 50 7.0 10- x0 $0 60 V,. REVERSE VOLTAGE (VOLTS) V,. REVERSE VOLTAGE (VOLTS! FIGURE OF MERIT (Q) vs. NORMALIZED DIODE CAPACITANCE (Cy) FREQUENCY (f) vs. TEMPERATURE (Tj) 2000 1020 "4 , L seco roto i = tec 100 : : z 500 gone 41 3 cai Sow yw insi394 5 WORMALIZED 10 C, IN51484 0970 Va = 46 V, = 4 Vee = 8C 100 0.960 | x 0 0 rf -i0 -75 -30 0 0 +t +8 +75 +b 1, FREQUENCY (WH2) 1, FUNCTION TEMPERATURE (C? = TYPICAL COMPUTER PRINTOUT 1IN5S147A A typical computer run used in verifying the compliance of a Bi-Taxial Voltage Variable Capacitor with a theoretically perfect device is reprinted below. Columns (1) and (2) are the actual data measured for the particular diode tested; column (3) is the value of Cj that is computed from the VVC equation; and column (4) is the difference between the predicted and actual values of Cj at that particular voltage. Note that deviation figure is usually in the same order as the measurement error. COD! SEMICONDUCTORS VO OF THIS DIODE IS 0.641, VOLTAGE VARIABLE CAPACITOR AND THE EXPONENT N 1$0.479 UNIT 15 VVC EQUATION IS C =81.9/((V0.641) )**0.479 DEVIATION Vv (VOLTS) C (PF) C (PF) (MEASURED) (MEASURED) (PREDICTED) (PREDICTED) 1.00 64.62 64.57 0.05 2.00 51.19 51.41 -0.22 3.00 43.91 44.08 -0.17 4.00 39.39 39.25 ~0.14 5.00 35.62 35.74 ~0,12 6.00 33.08 33.06 0.02 8.00 . 29.14 29.14 0.00 10.00 26.63 26.38 0.25 15.00 21.91 21.93 ~0.02 20.00 19.26 19.20 0.06 30.00 15.91 15.89 0.02 ) 40.00 13.88 13.88 0.00 ~ 60.00 11.40 11.46 0.06 SUM OF SQUARED DEVIATIONS IS 0.190 AVERAGE DEVIATION IS 0.089