T P A H 3 I I C T 0 P b l MAJ10M M O IIJHO CTM C P E f l H E M M A C T O T b l
L O W - P O W E R M E D I U M - F R E Q U E N C Y
T R A N S I S T O R S
T p Q H 3 M C T O p b l M d JlO M MOUL4 HOCTM C p e A H e f i H Q C T O T b l
L o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
O B L U H E C B E f l E H M f l
KpeMHHeBbie snHTaKCHajibHo-nnaHapHbie
n-p-nTpaH 3M cropbi K T 2 0 1 A .. .K T2 0 1fln p e A H a3Ha- MeHbi fl/i« p a6oTbi b ycMnMTenbHbix c x e iia x an- napaTypbi W Mponoro npHMeHeHMB.
OcjjopMneHne — b MeTa/inn4ecKOM repMeTMH- hom Kopnyce.
T e tin e p a T y p a o K pyw atom eti cpe flbi o t — 60 AO + 1 2 5 °C .
M acca Tpam w cTopa He 6onee 0,6 r.
G E N E R A L
S ilico n e p ita x ia l p la n a r n-p-n tra n sisto rs K T 2 0 1 A .. . K T 2 0 1 A a re inte nded fo r use in a m p lifie r c irc u its o f e q u ip m e n t o f w id e a p p lic a tio n .
M o u n tin g — in a m e tal sealed case.
A m b ie n t te m p e ra tu re — fro m — 60 to + 1 2 5 ° C.
T ra n s is to r mass — 0.6 g, m a x.
O C H O B H b l E T E X H M H E C K H E f l A H H b l E B A S I C T E C H N I C A L C H A R A C T E R I S T I C S
3 /ie K T p n M e c K n e n a p a n e T p b i E l e c t r i c a l P a r a m e t e r s
l i ï - f nA H l20ia
napaMeTpbi
3HaMeHHA
OGoïHQMOHUJI VolUC
PeJKMMbl HJMepeHHH M e a s u rin g c o n d itio n s
P a ra m e te r D e s ig n a tio n MCHCC
m in
H e 6 o n c e max
U C B ; U *E B , V
<c: I'E.
m A f. H i
i 2 3
4
s 67
0 6 p a T H b iii t o k m kA : R everse c u r r e n t , / / A :
K onneK Topa c o lle c to r
KT201 A , K T201B K T 20 1B , K T 2 0 1 T , K T 2 0 1 fl
^ C B O
1 1
2 0 1 0
- -
3 m HTTe pa e m it te r
KT201 A , K T201E K T 20 1B , K T 20 1T , K T 2 0 1 fl
( EBO
3 3
2 0* 1 0*
- -
CtaTHMeCKmit K oa^i^H U iieH T n e p e A a n n t o k o Sta t ic c u r r e n l- tr a n s fe r r a t io
K T 20 1A
K T 2 0 1 6 , K T 20 1B , K T 2 0 1 fl K T2 0 1
r
h 21E
2 0 30 70
60 90 2 1 0
1 5
M o A y n b ko3<4>4>mUMeKTa n e p e A a n n t o k o Ha BblCOKOM MaCTOTe
M o d u lu s o f h ig h -fre q u e n c y c u r r e n t tra n s fe r r a t io
h 21e 1 - 5 1 0* 1 0 7
EMKOCTb K o n n e K T o p H o ro n e p e x o A a , n<J>
C o lle c to r - ju n c tio n c a p a c ita n c e . pF
Cc 2 0 5 1 0 7
Ko34>4>HL<MeHT o6pa T H o ii CBS3H no H anpnw eH H K j b pewMMe n a n o r o CMrHana V o lta g e fe e d b a c k fa c t o r u n d e r lo w -le v e l s ig n a l o p e ra tio n s
h Ub
—
3 ■ 1 0- 3 5 1* 1 0 358
T p a H 3 M C T o p b i M cm oii MOL 14 HOCTM c p e A H e ii n ac T O T b i L o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
1 2 3 4 5 6 7
B bixoA H an npoBOAHMOCTb b peJKHMe M a n o ro
CMTHana, m kC h2 2b 2 5 1* 1 0 3
O u t p u t a d m itta n c e u n d e r lo w -le v e l s ig n a l o p e ra tio n s , f i S
K o3<t>iJ)MuneHT aiyM a, aB N o ise fa c to r , dB
K T 2 0 1 fl
F
15 1 0,2* 1 0J
P I p e A e n b H b i e i H a n e H H i i A o n y c T M M b i x p o k h m o b s K c n / i y a T a M M M
M a x i m u m V a l u e s of A l l o w a b l e O p e r a t i n g Co n d i t i o n s
(^ am b
H a n p n w e H n e M e>«Ay K o n n e K T o p o M h 3 mHTTepoM , K o n n e K T o p o M h 6a3oCt, 6a3o ii m 3m HTTe poM
^ C E m a x • ^ C B m a x * ^ B E m a x ’ ^ • KT201 A , KT201 B ■ K T201B , K T 20 1T , K T 2 0 1 A To k, mA :
K onn eK T op a l C m a x
K onn eK T op a (smMTTepa) HMnynbCHbifi ^cm m a x ’ 1 (^E M m a x ) 2
3MHTTepa MMnynbCHbiii (cpeAHee 3H0HeHne) /e m m a x MouuHoCTb ho K onneK Tope Pc ma«S' M®T
l omb = - 6 0 . . . + 9 0 °C 'amb = 125 °C
= - 6 0 . . . + 1 2 5 ° C)
C o lle c to r - e m itte r , c o lle c to r-b a s e an d b a s e -e m itte r v o lta g e s , UcEmax’ ' ^CB max- U BE’max' V :
20 K T 2 0 1 A , K T201E
10 K T201B , K T 20 1T , K T 2 0 1 A C u r r e n t, m A :
2 0 c o l l e c t o r / CmQX
c o lle c to r ( e m itte r ) pulse l CMmax'- ('em max) 3 1 0 0
2 0 e m it te r pulse m e an v a lu e l EHmjK P o w e r a t c o lle c to r Pc m W 150 i a m b = - 6 0 . . . + 9 0 °C
60 ,amb = 125 °C
1 n P M O T C y T C T B H H 3 0 n M p a K i i u c r o C M C m e H M f l B e /1 H M H H a C O n p O T H B n e H M M p c 3 M C T o p a H e a o n w H a n p e s b i u i a T b 2 k O m .
* 3h o h c h h c c T Q T M H C C K o r o K o j c f x ^ M U M e H T a n e p e a o M M t o k o H e H O p M M p y e T C M .
s r i p n /a m b == 9 0 . . .1 2 5 ° C hoiuHocTb cHHwaeTcn no nMHewHony IQKOHy.
’ I f t h e r e is n o c u t« o ff b ia s , th e r e s is t o r v a lu e s h o u ld n o t e x c e e d 2 O h m s .
* T h e v a lu e o f th e s t a t i c c u r r e n t - t r a n s f e r r a t i o is n o t s p e c ifie d .
* W i t h fa m b = 9 0 . . . 125 °C, t h e p o w e r d e c re a s e s a c c o r d in g to th e l i n e a r la w .
S a e u c u M O c m b o m n o c u m e n b H o u e e n u M u w M o 6 p a m - H o e o m o K a K o n n e K m o p a o m m e n n e p a m y p b i o k- p y x a r a i y e u c p e d t i
Relation between re la tive value o f co lle cto r reverse cu rre n t and am bient tem perature
59
P=15Bm¥Ą 0:8 m A
Q M m k -
\0 .3 m A ,
flßmA
0,2mA
I * *0.05 m A T p a H 3 H C T O p b I MCUIOH MOU4 HOCTM C p C A H e íí H Q C T O T b l
L o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
Tunoebie eonbm-aMnepHbie xapaKmepucmuKU e cxe tie c oóiyuM in u m m e p o n
Standard volt-am pere cha racte ristics fo r co m m o n -e m itte r c irc u it
K T 2 0 1 5
P m a x 'u O m W
0 1
4S 8 10 12 ñ IS IS 20 ,5 05 Oft 030.1 Ofo
I 1 01
I c,mA KT20IT
"4~
0,8 07OS
[
03 Qi 0,7OS S5Oft Oíd
í !... I i
7 O h n
ó2
4S 10 ? i¡* is is
:03
Obi
...MS OB
k ,m A KT201B, HT20IÄ K T 2 0 ÍA
60
T p a H 3Mcxopbi
M a n o n m o l h h o c t mcpeAHeii
n a c r o T b iL o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
3 a s u c u f i o c m b o m n o c u m e n b - Hod e e n u H U H b t c m a m u v e c K O - 2 0 K o s c fic fiu L iu e H m a n e p e d a ^ u m o K a :
а ) o m m o K a x o n n e K m o p a б ) o m m e n n e p a m y p b i o K p y - y i c a ï o i y e ü c p e d b i
Relation between relative value o f static c u rre n t-tra n s fe r ratio and:
а) co lle cto r c u rre n t;
б) am bient tem perature
Y K A 3 A H H A n o n P U M E H E H U h O M 3 K C n n y A T A U M H
n p M n a Ü K e n a n n b H H K O M A o n w e H ô b i T b o S e c n e n e H H a A e w H b i i T e n n o o T B O A M e x < A y M e c T O M n a i i K M h K o p n y c o M T p a H 3 M C T o p a . > K a n o n a s n b H M K a a o h>k h o 6 b i T b 3 « e M n e H o . n a Ü K a B b iB O A O B n p o n 3 B O A « T C f i
b T e n e H H e H e 6 o n e e 5 c . r i a i i K y n o r p y w e H M e M n p o H î B O A K T b n y T e M O K y H O H H ii b p a c n n a B j i e H H b t i i n p w n o i i c T e M n e p a T y p o ü 2 8 5 + 1 0 ° C .
flonycK aioTC fl A pyrw e BMAbi coeflHHeHHii (HanpHMep, CBapKo).
ripn
s c e x bmaox c o e A W H e H H i i a o /ijk h o co6moAaTbca y c n o s w e , mto TeMnepaTypa b n t o ë o f i to h k b K o p n y c a H e A o n > K H a npeBbiujaTb np eA enbH/to TeMnepaTypy 125 °C .ripH
MOHTdJKe TpaH3HCTOpbl AOnWHbl 6 b l T b >KeCTKO 3Q K penneH bi 3a K o p n y c .BbiBOAbi peKOMeHAyeTcn 3aKpenn«Tb Ha paccTonHHH He 6onee 10 m m o t Kopnyca.
MMHHManbHoe p ac c T O H H n e npw m o h t o t o o t MecTa M3rn6a 3 m m o t Kopnyca npM paAHyce 3aKpyrneHM!i 1 , 5 . . . 2 m m m o t K opnyca a o
MecTa naÜKH 3 m m .
P a 6 o T a T p a H 3H C T o p a b p e W H M e , , o 6 o p B a H H o i 6 a 3 b i " ( u e n b 6 a 3b i p a 3 0 M K H y T a n o n o c T O A H H O M y T O K y ) K a T e r o p n M e c K M î a n p e - LuaeTcn.
I N S T R U C T I O N S O N USE
W h e n a s o ld e rin g iro n is used in s o ld e rin g , a re lia b le heal a b s tra c tio n should be p ro v id e d betw een th e s o ld e r jo in t and Ihe tra n s is to r case.
T h e s o ld e rin g iro n b it should be g ro u n d e d . S o ld e rin g should last fo r no lo n g e r tha n 5 s.
D ip s o ld e rin g should be effected by d ip p in g in to a m elted s o ld e r a t a te m p e ra tu re o f 2 8 5 + 1 0 ° C.
O th e r kinds o f jo in t (e. g. w e ld in g ) a re a llo w e d .
In an y k in d o f jo in t one c o n d itio n sho uld be o b served , i. e. the te m p e ra tu re in a n y p o in t o f the case sho uld no t exceed 125° C.
In m o u n tin g , the tra n sisto rs sho uld be r ig id ly secured by the case. It is re com m e nde d to secure th e leads a t a distance o f no t m o re tha n 1 0 m m fro m the case.
In m o u n tin g , the m in im u m distance betw een the p o in t o f be nd
in g and the case is 3 m m , w ith the b e n g in g ra d iu s be in g 1 .5 —2 m m , and th a t betw een the case a n d the s o ld e r jo in t is 3 m m .
NEVER use the tra n s is to r u n d e r th e “ b ro k e n b a s e " c o n d itio n s (i. e. the base c irc u it is b ro k e n f o r d ire c t c u rre n t).
61
m
T p a H 3 n c T o p b i Manoii
m o ih h o c t mc p e flH e ii w acTO Tbi L o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
O B I M M E C B E f l E H U f l
KpeM H H eebie snM TaK C H a n bH o -nn a H ap H bie p -n -p T p a w w c T o p b i
K T 2 0 3 A . . . K T 2 0 3 B npeAHa3HOMeHbi a n a p a ô o T b i b c x e M a x ycvtneHHH m reHepHpoBOHMa K o n e 6 a H n ii b A H anasoH e ao 5 M l“ u , b CTa6nnM3a- T o p a x Hanpflx<eHMs, b c x e M a x nepeicntoMeHMs h A p y rH X c x e h a x
a n n a p a T y p b i u i H p o K o r o n p H M e n e H M S .
O t f j o p M n e H H e — b M e T a n / iH M e c K O M reptieTMMHOM K o p n y c e C rHÖKMMM BblBOAQMM.
T e M n e p c r r y p a o K p y jK a to m e fi c p e A b i o t — 6 0 a o + 1 2 5 ° C . M a c c a TpaH3HCTopa He 6 o n e e 0 , 5 r .
G E N E R A L
S ilico n e p ita x ia l p la n a r p-n-p tra n s is to rs K T203A -K T203B a re designed fo r use in a m p lifie r and o s c illa to r c irc u its w ith in a fr e qu ency ra n g e up to 5 M H z, in vo lta g e re g u la to rs , in s w itc h in g c irc u its and in o th e r c irc u its o f e q u ip m e n t o f w id e a p p lic a tio n .
M o u n tin g — in a m etal sealed case w ith fle x ib le leads.
A m b ie n t te m p e ra tu re — fro m — 60 to + 1 2 5 ° C.
T ra n s is to r mass — 0.5 g, m ax.
O C H O B H b l E T E X H M H E C K M E f l A H H b l E B A S I C T E C H N I C A L C H A R A C T E R I S T I C S
3 / i e K T p H M e c K M e n a p a n e T p b i E l e c t r i c a l P a r a m e t e r s
riapaneTpbt 06o)naHCHMfl
Parameter Designation
3HaMeHMB Value
PoKMMbl MÎMCpCHMfl Measuring conditions He weHee
min
He 6onee max
u c b ; u *e b .
v 1 c : ’ 'B : 1“ E.
mA f. H z
1 2 3 4 5 6 7
0 6 p a T H b t ii t o k, m kA : R e v e rs e c u r r e n t , ^ / A :
K o n n e K T o p a *c b o
c o ll e c t o r
K T2 03 A - 1 60 - -
KT2 03E - 1 30 - -
KT203B - 1 15 —
3 m MTTe p a / EBO
e m i t t e r
K T2 03 A - 1 3 0 *
" -
KT20 3B - 1 1 5 * -
KT203B - 1 1 0 * - -
Ko3(j)4>nL(neHT nepeAOMM t o k o b c x e w e c o6u4h m 3mHTTe p o M b p ew H M e M a n o r o
c iir H a n a h21c 5 1 * * 103
C u r r e n t - t r a n s f e r r a t i o f o r c o m m o n - e m it t e r c i r c u i t u n d e r lo w - l e v e l s ig n a l o p e r a t io n s
K T2 03 A 9 -
K T 2 0 3 5 30 90
KT203B 15 100
62
T
p a H 3 M C T o p b iManoii
m o l h h o c t m c p e f l H e i i n a c T O T b iL o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
| 2 0 3 A
1 2 3 4 5 6 7
rip e A e /ib H a a HacTOTa K03c()(j)nuneHTa
nepeAaHM t o k o, M Tu fh21b 5 5 ■j * *
C u t- o ff fre q u e n c y o f c u r r e n t - tr a n s fe r ra tio , M H z
H a n p H w e H M e M e w A y K O /in e K T o p o n M 3 M HTTe pOM B pe>KH Me HaCblUHeHMH, B S a tu r a tio n c o lle c to r - e m itte r v o lta g e , V
K T203B
U CE sat
1 2 0 ; 4 *
EMKOCTb K o n n e K T o p H o r o n e p e x o A a , n<t>
Cc — 1 0 5 — 1 0 7
C o lle c lo r - iu n c t io n c a p a c ita n c e , pF
B x o A H o e c o n p o T M B /ie H M e b peJKMMe M a /io ro CMrHana b c x e M e c o6m e ii 6a3o ii, Om In p u t re s is ta n c e in c o m m o n -b a s e c ir c u it u n d e r lo w -le v e l s ig n a l o p e ra tio n s , O h m
K T 2 0 3 A
f>11b
300 50
K T 2 0 3 5 - 300 30 - -
K T203B - 300 15 - -
r i p e f l e n b H b i e 3 H O H e H H f l a o n y c T H M b i x p e w w n o B 3 K c n n y a T a i | H H M a x i m u m Va l u e s o f A l l o w a b l e O p e r a t i n g Co n d i t i o n s
K T 2 0 3 A HanpfljKeH M e, B :
V o lta g e , V :
MewAy KonneK TopoM m 3 m MTTepoM UC E m a x , ’ ’ 2 c o lle c to r - e m itte r U CE max, ' ’ !
Me)KAy K onneKTopoM m 6 a 3 o ii l / CB max, 1>!
c o lle c to r-b a s e UCB max, >’ 3 ( U = - 5 5 . . . + 7 5 ° C ) ('amb = 125 ° C )
Me>KAy 3 MMTTepOM m 6 a 3 o ii U EBmax( tamb = - 6 0 . . e m itte r- b a s e U EB mQX(tamb = - 6 0 . . . + 1 2 5 ° C )
+ 125 °C )
T o k K o n n e K T o p a , m A : C o lle c to r c u r r e n t , m A :
‘ (»«.mb = - 6 0 . . . + 1 2 5 °C ) - 6 0 . . . + 1 2 5 ° C ) n o C T O f lH H b lH I c m a x
d ir e c t Iq max (tamb
M M n y n b C H b i i i / C M m a x ( ' a m b = ~ 6 0 - ■ • + 1 2 5 ° Q
pulse (CM max (famb = — 6 0 . . . + 1 2 5 °C )
CpeAH ee 3HaMeHne t o k o 3 m h t te p a b KMnynbcHOM pexHM e W ' a m b = — 6 0 . . . + 1 25 ° C )
A v e ra g e e m it t e r c u r r e n t in pulsed d u ty / EAV ('«mb = — 6 0 . . . + 1 2 5 ° C )
M o u iH o C T b H a K o n n eK T o p e Rq , mBt : P o w e r a t c o lle c to r Rq r m W :
'amb - 6 0 . . . + 7 5 °C 125 °C
T e M n e p a T y p a n e p e x o A a fj max, °C ju n c t io n te m p e r a tu r e I, max, °C
60 30 30
10
50
10
150 60 150
K T203B
30 15 15
10
50
10
150 60 150
K T203B
15
10 10
10
50
10
150 60 150
1 n P H noBbitueHH m fa m b CBbiixie 75 ° C A onycTM M ax MOtHHOCTb m HanpHW CHHC M e w fly K onneK Top oM h j m m t t c p o m, K o nne K Top oM h 6 a 3 0 H C H H JK O C T C JI n o HM HeilHOMy SOKOHy.
1 W h e n th e a m b ie n t t e m p e r a t u r e ris e s a b o v e 75 ° C , th e p e r m is s ib le p o w e r a n d c o l l e c t o r - e m it t e r , c o lle c t o r - b a s e v o lt a g e s d e c r e a s e a c c o r d in g to th e l i n e a r la w .
* n P M O T c y r c T B M M 3 a n * p a K > m e r o c M e l u c h h h c o n p o T M s n e H M e b u e n n 6 a 3 a - 3 M M T T e p H e f l o n w H O n p e B b i u u a T b 2 k O m .
* I f t h e r e is n o c u t - o f f b ia s , th e r e s is ta n c e in th e b a s e - e m i t t e r c ir c u i t s h o u ld n o t e x c e e d 2 k O h m s .
* 3 n a M e H H e /jaiC n e H o p M n p y e T C *.
* T h e h „ e v a lu e is n o t s p e c ifie d .
63
T p a H 3 M C T O p b l
MCmoii
M OU4 HOCTM C p e f lH e M M a C T O T b lL o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
Y K A 3 A H M A n o n P H M E H E H U K ) M 3 K C n n y A T A U M M
3 a T e M n e p a T y p y K o p n y c a npHHM M aeTCH T e M n e p a T y p a m o 6 o i i TOMKM OCHOBOHHH TpaH3MCTOpO.
r ia f iK y BblBOAOB npOM3BOAMTb nasnbHM KO M MOLUHOCTbK) He 6onee 60 Bt bTeMeHwe He 6onee 3 c, T e M n e p a T y p a naiiKM H e Aon>KHa npeBbiuiaTb 260 °C .
P a 3 p e u ja e T c n npo M 3B oflH Tb n a tiK y n yT eM n o rp y w e H M s BblBOAOB He 6 o n e e neM n a 3 c b p a c n n a B n e H H b iii n p w n o it c TeM nepaTypofi He 6 o n e e 260 °C.
M w H H M a n b H o e p a c c ro flH H e M e c T a M 3 r n 6 a B b iB O A a o t K o p n y c a 3 M M .
n a i i K a B b lB O A O B A o n y c K a e T c a h q p a c c T O J m n w H e 6 n n > K e 5 m m o t K o p n y c a T p a H S H C T o p a .
P a A w y c M 3 r n 6 a H e M O H e e 1 .5 m m .
Pa6oTa T p a H 3 n c T o p a b p e x c M M e , , o 6 o p B a H H O M 6 a 3 b i" ( u e n b 6 a 3 b i p a s o M K H y T a no n o c T O H H H O M y T O K y ) K a T e r o p H H e c K H 3 a n p e - m a e T C f l .
I N S T R U C T I O N S O N USE
T h e te m p e ra tu re o f an y p o in t o f the tra n s is to r fo u n d a tio n is ta ke n as the te m p e ra tu re o f the case.
S o ld e r the leads w ith a s o ld e rin g Iro n o f 60 W m a x, fo r no lo n g e r th a n 3 s, the s o ld e rin g te m p e ra tu re no t exce eding 260° C.
It is a llo w e d to p e rfo rm s o ld e rin g by d ip p in g the leads in to a m elted s o ld e r at a te m p e ra tu re o f no t h ig h e r th a n 260° C fo r no lo n g e r th a n 3 s. T h e m in im u m distance betw een the p o in t o f bending a n d the case is 3 m m .
T h e leads m ay be so ld e re d a t a distance o f no t clo s e r than 5 m m fro m th e tra n s is to r case.
T h e b e n d in g ra d iu s is at least 1.5 mm.
NEVER, use the tra n s is to r u n d e r the “ b ro k e n base” c o n d itio n (the base c irc u it is b ro k e n fo r d ire c t c u rre n t).
64
UCEmax
1.0
0.8 0.S
U u max ( ^bb *0)
„ !
1 *' B £ 10° 10' W2 103 /04 10s I0 b
3 a e u cu n o c m u omHOCumenbHou eenu^uHbi H au6onbuieio no- n p io c e n u n K onn eK m op-snum m ep om conpom ueneHun e yenu 6a3a-3M um m ep
Relation between re la tive value o f m a xim u m c o lle c to r-e m itte r voltage and resistance in base-em itler c irc u it
3 a a u c u M 0 c m u K O 3 ^ 0 u q u e n m a n e p e d a v u m o K a e c x e n e c o6u i u m J M u m m e p o M 8 p e x c u n e n a n o i o c u z H a n a o m mOKO 3m u m m e p a
Relation between c u rre n t-tra n s fe r ra tio in c o m m o n -e m itte r c irc u it in lo w -le v e l operation and e m itte r c u rre n t
3 a eucutio cm u o6pam noio moKa xonnexm opa om meMnepa- mypbi OKpyxcaiouieu cpedbi
Relation between co lle cto r cu rre n t and am bient tem perature
T p a H 3 M C T o p b i Manoii m o u jh o c tm
c p e f l H e i in ac T O T b i L o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
O B I M M E C B E f l E H M f l
KpeMHMeBbie 6ecKopnycHbie nnaHapHo-snMTaKCHanbHbie n-p-n TpaH3HCTopbi K T 2 0 6 A , K T 2 0 6 E npeAHa3HaneHbi a n » Mcno/ib30BaHmi b H epetioH TnpyeM bix rn 6 p n A H b ix cxe M a x , MHKpoMOAynnx, y3/iax h 6 n o K a x. ncno nb3yeiibix b ycTpoiicTB ax u m p o K o ro npHMCHCHHH.
OtJropnneHHe — 6ecK opnycH oe.
Y C T O M H M B O C T b K B H C U J H H M B0 3 A 6 M C T B M f l M :
B H 6 p a u H H b f l M a n a 3 0 H e h q c t o t o t 1 a o 2 0 0 0 T u c y c K o p c H n c M a o 15 g;
oAMHOHHbie y fla p b i c ycKopeHneM a o 150 g;
/lHH eiiH bie Horpy3KM c ycKopcHweM a o 50 g;
T e M nepaTypa o K p y w a to m e ii cpeAbi o t — 60 a o + 8 5 °C . M a cc a TpaH3MCTopa He 6 o n e e 0 ,0 0 2 r.
G E N E R A L
Silicon chip p la n a r e p ita x ia l n -p -n tran sisto rs K T 2 0 6 A , K T 2 0 6 6 a r e designed fo r use in n o n -r e p a ira b le h y b rid circuits, m ic ro m odu les, and in blocks e m p lo y e d in devices o f w id e a p p lic a tio n .
M o u n tin g — w ith o u t case.
R e 'is ta n c e to E x te rn a l Effects:
v ib ra tio n w ith in fre q u e n c y ra n g e fro m 1 to 20C0 H z a t a c c e le ra tio n up to 15 g;
sing le im pacts a t a c c e le ra tio n up to 150 g;
lin e a r a c c e le ra tio n up to 50 g;
a m b ie n t te m p e r a tu r e — fro m — 60 to + 8 5 ° C.
T r a n s is to r mass — 0 .0 0 2 g, m a x .
O C H O B H b l E T E X H W H E C K M E f l A H H b l E B A S I C T E C H N I C A L C H A R A C T E R I S T I C S
3 n e K T p i m e c K H e n a p a n e T p b i E l e c t r i c a l P a r a m e t e r s
flapaMCTpbi Parameter
0603H0MeHHM Designation
3HaHeHHN Value
Pe>KMMbl MÎMCpCHM»
Measuring conditions hc Mcwee
min
ne 6onee max
UCB-U'EB.
V i c ; f e.
mA f. H i
0 6 p a T H b ii i t o k, m kA : R e v e rs e c u r r e n t . y /A :
K o n n e K T o p a ^CBO
c o ll e c t o r
K T 2 0 6 A - 1 20 - —
K T 2 0 6 6 - 1 12 - -
3m MTTe p a (EBO
e m i t t e r
K T 2 0 6 A - 1 2 0 * — —
K T 2 0 6 5 - 1 1 2 * - -
CTOTHHeCKMH K03tt><j)MUMeHT nepeAOMM TOKa h21E 1 5
S ta tic c u r r e n t - t r a n s f e r r a t io
K T 2 0 6 A 30 90 —
K T 2 0 6 B 7 0 2 1 0 -
M o A y x ib K034><t>MUMe H T a nepeAQ H M t o k o
h o B b ic o K o A n a cT O T e h21e 1 2 5 * 1 0 7
M o d u lu s o f c u r r e n t - t r a n s f e r r a t i o a t hig h fr e q u e n c y
EMKocTb K o n /ie K T o p H o ro n e p e x o A a , n<t> - 20 5 - 1 0 '
C o lle c t o r - ju n c t io n c a p a c ita n c e , pF
65
T
p a H 3 M C T o p b iManoii
m o l h h o c t m c p e f l H e i i n a c T O T b iL o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
r i p e f l e n b H b i e 3 H o M e H H H f l o n y c T H H b i x p c w k h o s S K c n n y a r a M M H
M a x i m u m V a l u e s o f A l l o w a b l e O p e r a t i n g Co n d i t i o n s
('«m b'- - « 0 . . . + 8 5 °C)
Hanpa>KeHHe fie w a y K onneKTopoM m sMMTTepoM, C o lle c to r - e m itte r , c o lle c to r-b a s e a n d e m itte r- b a s e . V :
KonneK TopOM h 6 a 3 o ii h 3m HTTepoM h 6030»
^CE max ’ ^CB max' ^EB max’ ^ *
v o lta g e U CE mQX\ U CB max, L^eb max'
K T 2 0 6 A 20 K T 2 0 6 A
K T 2 0 6 5 12 K T 2 0 6 6
To k K o n n e K T o p a , m A : C o lle c t o r c u r r e n t , m A :
no cT osH H biH / c
max
2 0 d i r e c t / Cm axHMnynbCHbiii ;CM max! 50 Pulse 'c m max2
M o a \H o C T b TpaH 3H C Topa Pmax3, m B t: T r a n s is to r p o w e r Pmax3, m W :
tamb = - 6 0 . . . + 5 5 °C
15 'amb
= — 6 0 . . . +55 °C
'amb
=85 °C 5 'amb
=85 °C
T e M n e p a T y p a n e p e x o fla / ¡ max,
°C 100
J u n c tio n te m p e r a tu r e tj mox,°C
■ n PH OTCyTCTBMM 3anMpOK5LUCrO CMeLHeHMfl kOm.
M p ^ io HKC hQ ^IO
4 r i p « fa m b — 5 5 . . .8 5 ° C MOiuHOCTb c H M w a eT c « n o nwHeMKOMy 3QKOHy.
' W i t h a b s e n c e o f c u t - o f f b ia s , /* B E ^ 3 k O h m s .
J / p ^ 1 0 / i $ a n d Q ^ 1 0
3 W i t h fa m b == 5 5 . . .8 5 ° C , th e p o w e r d e c re a s e s a c c o r d in g to th e l i n e a r la w .
Tunoeue eonbm-arinepHbie x a p a K m e p u c m u K u e c x e n e c 0 6 1 4 0m SMummepOM S ta n d a rd v o lt-a m p e re c h a ra c te ris tic s f o r c o m m o n -e m itte r c ir c u it
66
m
ip m f '[ M L
[i | fi 'V
•v : . $I-,
T p a H 3 iiC T o p b i M a n o ii
m o l l j h o c t mc p e flH e ii
n a c T O T b iL o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
!cbo
hBQ (tamO ~25°C')
0 20 40 BO 80 100
3 a e u cu M o cm b o m H o cu m e nb H ou eenuvuHbi o 6 p a m - hozo m oK a K o n ne K m o pa om m e n n e p a m y p b i OKpy- jK a K u q e u cpedbi
Relation between re la tive value o f co lle cto r reverse cu rre n t and am bient tetnperature
3 a e u c u M o c m b o m H o cu m e nb H ou e en u vu H b t c m o m u u e c - kozo K03<fi<f>u<iueHma nepedonu m o x o :
а ) om m oKa K o n neK m opa
б) om m e M n e p a m y p b t O K p yxca to u je u cpedbi
Relation between re la tive value o f static c u rre n t-tra n s fe r ratio and:
а) cu rre n t c o lle c to r;
б) am bient tem perature
C c
3aeucunocm b o m H ocum enbH ou eentm uH bi e n K o cm u KonneKmopHoio nepexoda om HonpxjtceHU» Kon- neKm op-6a3a
Relation between re la tive value o f c o lle cto r-ju n ctio n capacitance and collector-base voltage
3 o e u c u M o c m u om H o cu m e nb H ou eenu^U H bi n a u 6 o n b - u/e;o HonpjixceHUji K o n n e K m o p -in u m m e p o m co n p o - m u e n e H u x e y e n u 6o jm
Relation between re la tive value o f m a xim u m c o lle cto r- e m itte r voltage and resistance in base c irc u it.
!,S 1,6 1A
m
-— 0,6
OM 0,2
to m3 -60 -<W7 - 111 0 20 UQ 60 80
V c im a i
tu — --- !--- !— !— !---- i ____________________________
0 OJ 02 0,5 1,0 J 5 W JO 50 WO U ..K it
67
T p a H 3 M C T o p b i
M a n o î i m o u u i h o c t mcpeflHeii n ac T O T b i L o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
Y K A 3 A H M H n o n P M M E H E H U K ) H 3 K C n n Y A T A 1 4 M H
M O H T O * T p Q H 3 M C T O p 0 8 B M H K p O C X e M b l flO J lJ K e H O C yL L le C T B JlflT b C fl B y c n O B H flX M M K p O K JIM M O T a MJ1M B K O H flM U M O H M p O B O H H b IX n o M e i l t e - HHflx c O T H O C H T e n b H O H B n a jK H O C T b ro HO 6 o n e e 6 5 % r i p n t a m b
= 25 ± 1 0 ° C .
r ip n 3KcnnyaTaunM TpaH3MCT0p0B b annapcrrype A onxe H 6biTb o6e cn e 4e H TennooTBO A o t K p w c ra n n a He x y w e , neM TennooTBO A b c b o 6 o a h o m BosAyxe (R |h ja < 3 " C / m W ) .
flp M nOMKe BblBOAOB AOrtJKHbl 6blT b npM H flTbl M e p b l, HC K /llO H a- homwe H a rp e B K p H c r a n n a h CM o/ibi B b iiu e 1 0 0 ° C .
M w H H M a n b H o e paccTOH HM e o t M e c T a B b ix o A a BblBOAOB M3 3a - m w T H o ro n o K p b iT H s AO M ecTa n aü xM (cB ap K M ) A o n w H o 6 b iT b He iie H e e 1 mm.
P a c T flrM B a ro m e e y c w n iie Ha BbiBOA He 6o n e e 2 r,
rip w MOHTa>Ke TpOH3MCTOpOB B M MKpOCXeMy AOHW Hbl Ô bITb npM HSTbi M e p b i, M C K m o n a io m H e H 3rw 6 BblBOAOB 6nn>Ke, MeM 0 ,3 mm.
r ip n 3a n n B K e T p a H 3M C T o p o B K O M n a y H A a M H H e A o n W H a n p e B b i - m a T b C f l m q k c m m o n b H O A o n y c T H M a n T e M n e p a T y p a O K p y w a t o m e M
cp eA bi 85 ° C .
n PH no/lHMepM3Ql4MM He AO/1ÎKHO B03HHK0Tb MeXOHWHeCKMX HarpysoK Ha BbiBOAbi.
rip w H c n b iT a H H S x m 3K cnxiyaTai4H H TpQH3MCTopoB c n e A y e T yMM- TblBO Tb B03MOJKHOCTb MX COMOB035y>KAeHMa, KOK BblCOKOHOCTOTHbIX 3/ieM eH TO B c 6 0/ibUJHM K03<j)cjjHMneHT0M n ep eA O H H TO Ka, H KOK CJieACTBMe 3TO rO , BblXOA TpO H3HCTOpa M3 C T p o fl.
flp M n pH MeHeHM M M MOHTOJKe TpaH3MCTOpOB AOnjKHbl Ô bITb fipM H flTbl M e p b l, H C K /llO H aiO lU H e B03AeMCTBHe CTOTMHeCKOro 3 a p d A a H a TpaH3HCTO p.
P a ô o T a T p a H 3H C T o p a b pejKM M e „o6opBaH H ofi 6 a 3 b i" (u e n b 6 a 3 b i p a 3 0M K H yT a n o nocTO flHHO M y TO K y) KO TeropHHecKM 3 a n p e - u ia e T c n .
I N S T R U C T I O N S I N USE
T ra n s is to rs sho uld be m o unte d in m ic ro c irc u its u n d e r m ic ro c lim a te c o n d itio n s o r in ro om s p ro v id e d w ith a i r c o n d itio n in g at a re la tiv e a i r h u m id ity o f no t m o re tha n 6 5 % and famb = 2 5 + 1 0 ° C.
In o p e ra tio n o f the tra n s is to rs , the e q u ip m e n t sh o u ld be p ro vided w ith heat a b s tra c tio n fro m the c h ip not w o rs e th a n h e al ab
stra c tio n in fre e a i r (R,hja 30° C /m W ).
W h e n s o ld e rin g th e leads, ta k e m easures p re v e n tin g the chip and resin fro m h e a tin g a b o ve 100° C.
T h e m in im u m distance betw een the p o in t in w h ic h the lead com es o u t o f the p ro te c tiv e c o a tin g and th e s o ld e r (w e ld ) jo in t sho uld be a t least 1 m m . T h e ten sile fo rc e a p p lie d to the leads should no t exceed 2 g.
In m o u n tin g the tra n s is to rs in the m ic ro c irc u it, ta k e measures p re v e n tin g th e leads fro m b e n d in g clo se r th a n 0.3 m m .
In fillin g the tra n s is to rs w ith com poun ds, the m a x im u m a llo w a b le a m b ie n t te m p e ra tu re (85° C ) sho uld no t be exceeded.
D u rin g p o ly m e riz a tio n , th e re should ra ise no m e ch a n ica l loads o n to the leads.
D u rin g the tests and in se rvice , the p o ssib ility o f s e lf-e xcita tio n o f the tra n s is to rs as h ig h -fre q u e n c y elem ents w ith a la rg e c u rre n t- tra n s fe r r a tio sho uld be ta ke n in to a cco unt. T h e s e lf-e x c ita tio n may
re su lt in a fa ilu r e o f the tra n s is to r.
W h ile in service and d u rin g m o u n tin g , ta k e m easures to p re ven t the effect o f sta tic c h a rg e on the tra n s is to r. N E VE R use the tra n s is to r u n d e r “ b ro k e n base” c o n d itio n s , (the base c irc u it is b ro k e n f o r d ire c t c u rre n t).
T p a H 3 M C T o p b i
Ma/ioii MOL14HOCTH cpeflHeii
n a c r o T b iL o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
O B L I G E C B E f l E H W f l
TepMaHMeBbie cnnaBHbie ManoMoaiHbie cpeAHeü 4a croT bi p - n - p TpaH3MCTopbi n 2 9 , P129A, PI30 npeAHa3HaneHbi Ann paôoTbi b y c M jiM T e n b H b ix m nepeicntoHaiomM x c x e M a x a n n a p a T y p b i u m p o K o r o npwMeHeHHH.
O tfio p M n e H H e — b M eTannM necK O M repM eTM HH O M K o p n y c e C rMÔKMMH BblBOAOMM.
T e M n e p a T y p a o K p y w a to m e fi c p e A b i o t — 60 a o + 6 0 °C.
Macca TpaH3Mcropa He 6 o nee 2 r.
G E N E R A L
G e rm a n iu m a llo y lo w -p o w e r m e d iu m fre q u e n c y p-n-p tra n s is to rs fl2 9 , I129A, ri3 0 a re designed f o r use in a m p lifie r and s w itc h in g c irc u its o f e q u ip m e n t o f w id e a p p lic a tio n .
M o u n tin g — in a m e tal sealed case w ith fle x ib le leads.
A m b ie n t te m p e ra tu re — fro m —60 to - f 6 0 ° C.
T ra n s is to r mass — 2 g, m ax.
¿8
T
p o H 3 M C T o p b iManoii
MOL14HOCTM c p e A H e i i n a c T O T b iL o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
O C H O B H b l E T E X H M H E C K H E f l A H H b l E B A S I C T E C H N I C A L C H A R A C T E R I S T I C S
3 n e K T p M M e c K n e n a p a M e T p b i El e c t r i c a l P a r a m e t e r s
3hOMCHM* Pc>KMMbl MIMCpeHM«
fla p a M e T p b i 06o3HaMeHMn V a lu e M e a s u rin g c o n d itio n s
P a r a m e te r D e s ig n a tio n He MCHee He 6 o n e e
m in m a x
U C B .U 'E B .
v
'c : ' * b ; / * * E.
m A f. M H z
O 6 p 0 T H b lH t o k, m kA : R e v e rs e c u r r e n t , / / A :
K o n n e K T o p a c o ll e c t o r
3M HTTe p a e m i t t e r
C TO TH H ecK nii Kosctx^MMMeHT nepeAOHH TOKO S ta tic c u r r e n t - t r a n s f e r r a t i o
1129 •. •
I1 2 9 A
m o
r ip e A e /ib H a fl m o c t o t o K o s ijx jjH m ie H T a nepeAaM M t o k o, M I"u
C u t - o ff fr e q u e n c y o f c u r r e n t - t r a n s f e r r a t i o , M H z
r i2 9 , n 2 9 A n30
H a n p jiw e H H e , B : S a tu r a tio n v o lta g e , V :
M eW Ay 6 a 3 o ii h 3m H TTepoM b p e w w M e HacbimeHHX
b a s e - e m it t e r 1129 n 2 9 A n 3 0
MeJKAy KOnneKTOpOM H 3M HTTe pOM b p e * H M e H acb im eH M B
c o ll e c t o r - e m l t t e r n 2 9
n 2 9 A n 3 0
rio c T o iiH H a s B pe M ehm u e n n o 6 p a T H o fi cbash Ha BbicoK oii MacTOTe, nc
T im e c o n s ta n t o f fe e d b a c k c ir c u it a t h ig h fr e q u e n c y , ps
C B O
fh 2 1 b
r b - b C c
20 40 80
5 10
50 100 1 8 0
0 ,5 0 ,4 0 ,3 5
0,2 0,2 0,2
12
1 2*
0 ,5 2 0*
1 * *
2 0 ; 2 *
2 0 ; 1 *
2 0 ; 0 ,5 *
2 0
;
2*
2 0
;
1*
2 0 ; 0 ,5 *
H a n p n w e H M d b p e w m -ie n e p e k/i k î h c h m u, B:
M e w A y K o n n e K T o p o M ti 6 a 3 o fi U cb m m a x Me>KAy 3 MHTTepOM H 6 a 3 0 H U BEM max M e w A y K o n n e K T o p o M h 3m H TTepoM , L/cem m a x Me)KAy K o n n e K T o p o M M 3 M HTTe p oM , ^C E m a x
famb = 2 0 ° C ; / B = 0 l amb = 6 0 ° C ; / B = 0
To k K o n n e K T o p a (3m h t te p a ) b p e * M M e n e p e K n io M e H M fl 'C M m a x ( 'E M m a x ) - m A
M ou*H O C Tb Ha K o n n e K T o p e P c m a x ’ M ® T T e M n e p a T y p a n e p e x o A a (¡, ° C
r ip e f le n b H b ie 3HaMeHHH flo n y c T M M b ix pew H M O B 3 K c n n y a T a q n n M a x i m u m V a l u e s o f A l l o w a b l e O p e r a t i n g C o n d i t i o n s
( ' a m b = - 6 0 . . . + 6 0 - C )
V o lta g e s u n d e r s w itc h in g c o n d itio n s , V : 12 c o lle c to r -b a s e U CBM mox
1 2 e m itte r -b a s e U eEMmQX
c o ll e c t o r - e m it t e r U CEM max c o ll e c t o r - e m it t e r v o lta g e L/CEmax
10
6
100 30 7 5
69
'a m b = 2 0 ° C ; / B — 0 6 0 ° C ; /,b
C o ll e c t o r ( e m i t t e r ) c u r r e n t u n d e r s w itc h in g c o n d itio n s , 'C M m a x ( 'E M m a x ) ’ m A
P o w e r a t c o lle c to r Pcm ax- J u n c tio n t e m p e r a t u r e /¡, ° C
TpaH 3M C Topbi M an o ii MOL 14 HOCTM c p e flH e ii MacTOTbi L o w -P o w e r M e d iu m -F r e q u e n c y T r a n s is to r s
TunoSbie ebixodHbie xapaxm epucm uKU e cxeMe c o 6 uiun 3M ummepon
Standard output cha racte ristics fo r c o m m o n -e m itte r c irc u it Ha^anbHbie ynacm nu m unoebix ebixodnbix xapoK wepucm uK
e cxeMe c 0 6 1 4UM iM um m epoM
In itia l sections o f standard output ch a racte ristics f o r com m on- e m itte r c irc u it
BxodH bie x a p o K m e p u c m u K u e cxe Me c o 6 u ] u m S M u m m e p o ri:
а ) e o6n o c m u 6o n b u iu x moxoe б) e o6 n a c m u n a n b ix m o xo e
In p u t ch a racte ristics fo r com m o n -e m itte r c ir c u it:
а) in zone o f h ig h -le v e l c u rre n ts ; б) in zone o f lo w -le v e l cu rre n ts ;
7 0
¡CBO
keo (tam6=20*5oc)
h BO
'(BO (^■ a m S -7 0 i S°C')
ta m S ,°C 0 10 20 30 40 SO 60
3 aeu cu n o c m b omHocumenbHou e e n u ^u H b i o 6 p a m Ho^o m oxa Konnexm opa om m en n e p a m yp b i 0Kpy3KaK>meu cpedbi Relation between re la tive value o f co lle cto r reverse c u rre n t and am bient tem perature
0 10 20 SO UO SO 60
3aB ucunocm b omHocumenbHou eenu^uHbi o6pam noio m oxa 3M u m m ep a om m en n e p a m yp b i OKpyxcoioiyeu cpedbi Relation between re la tive value o f e m itte r reverse cu rre n t and am bient tem perature
'
T p a H 3 M C T O p b l
Mcmoii
M O L U H O C T li C p e f l H e i i M a C T O T b lL o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
Relation between re la tive value o f static c u rre n t-tra n s fe r ratio and:
а) e m itte r c u rre n t;
б) collector-base volta ge;
e) am bient tem perature
3aeucuM ocm b omHocumenbHou eenu^unbi H au6onbw eio h o- np xxceH u n K onnexm opa-SM um m ep om conpom uenenux e
^ ifenu 6a30-3M um m ep
Relation between re la tive value o f m a xim u m c o lle c to r-e m itte r voltage and resistance in base-em itter c irc u it
3aeucu Mocmb omHocumenbHou eenuvuHbi cmamu^eCKOia K03(f><f>uqueHma nepeda^u m o xa:
а ) om moKa s n u m m e p a
б ) om H a n p x x c e H u fi K o n ne K m op-6o3a e) om m eM nepam ypbi 0Kpy3KaioLqeu cpedbi
71
¡ 3
:^w H K a H W i
TpaH3MCTopbi
M a n o i i m o l h h o c t mcpeflHeii MacTOTbi L o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
Y K A 3 A H H J 1 n o n P H M E H E H M K J H 3 K C n n y A T A U M M PeKOMeHflyeTcn 3Kcnn/aTMpoBaTb TpaHsncTopbi:
b fln a n a 3 0 H e T e M n e p a ry p tamb = — 5 0 . . . + 5 5 ° C ;
npM TOKe K o n n e K T o p a He 6 o n e e 0 ,9 Iq max- HanpBweHMH K o rin e x - T o p a H e 6 o n e e 0 ,7 L/C m ax, m o w h o c tm paccew b o h h b H e 6 o n e e O ,7 P C m a x, W ' C m a x - U C max' PC max ~ MOKCMManbHO AonyCTH M bie 3HOHeHMB T o x a , H anps)KeHHfl h MomHocTH A nn fla H H o fi T e M n e p a T y p b i.
3 a n p e m a e T C « M c n o n b s o B a H w e T p a H 3 M c r o p o B n p w c o B M e m e H M H f l B y x h 6 o n e e n p e A e n b H o A o n y c T M M b ix B o s fle fic T B M Ü .
Pa3peLuaeTCn npo n 3 B oflH T b n a f i x y BbiBoflOB T p a w M C T o p o B Ha p a c c T O B H H H He M e H e e 5 m m o t x o p n y c a TpaH3HCTopa c npwMeHeHHeM e nhp T O - K O H M ( |) o n b H o r o 4 > riK > c a O K C n c o c T a B a : x a H M < f> o n b 4 0 % , C n H p T 3 T H J !O B b l H 6 0 % .
r i a i t K y n o r p y x e H M e M b p a c n n a B n e H H b i i i n p w n o i i c n e A y e T n p o n 3 - B O A M T b H e 6 o n e e 5 c r i p n T e n n e p a T y p e H e 6 o n e e 2 6 0 °C . r i p n n a i i x e n a fin b H M K O M C y3KM M JKO/IOM A O J lîK e H 6 b l T b O Ô e C n e H e H H O A e W H b lii T e n n o o T B O A mo k a y M e c T O M n a ü x H h x o p n y c o M T p a H 3 M C T o p a . n a S x y npoM3BOAHTb b TeMeHHe He 6 o /ie e 5 c n p n T e M n e p a T yp e He 6 o /ie e 260 °C .
K o p n y c n a a / i b H H x a A O J iw e H 6 b i T b îa s e M J ie H . r i e p e A n a S x o H H e O Ô X O A H M O n p O M 3 B O A H T b n p O T M p a H H C B b lB O A O B C nH p T O M .
H s r w S B b lB O A O B A o n y c x a e T c a H a p a c c T O B H W H H e M e n e e 3 mm O T K o p n y c a T p a H 3 M C T O p a . n p M 3 T O M A O fl> K H b t 6 b l T b n p M H B T b l M e p b l npeAOCTopoJKHocTM, o6ecneHMBaK>u4ne HenoABMJXHocTb BbiBOAa M e > K A y M eC TO M M 3 r n 6 a M C T e X J lS H H b lM H 3 0 / lf lT 0 p 0 M , H T O Ô b l H e n p O H - 3 0 U j n 0 H O p y L U e H HB C n a B B b iB O A a CO C T e X /lflH H b IM M 3 0 n B T 0 p 0 M , B eA ym ero k noTepe re p M C T M H h o c t h TpaH3MCTopa.
I N S T R U C T I O N S O N USE
II is re com m e nde d to use the tra n s is to rs :
w ith in an a m b ie n t te m p e ra tu re ra n g e fro m — 50 to + 5 5 ° C ; at a c o lle c to r c u rre n t n o t e x ce e d in g 0.9 l c mox, c o lle c to r vo lta g e n o t e xce e d in g 0.7 U c max, dissipated p o w e r n o t exce e d in g 0.7 Pc max, w h e re l c , ~C max — m a x im u m a llo w a b le values o f c u rre n t, vo lta g e an d p o w e r fo r the give n te m p e ra tu re .
N e v e r use the tra n s is to rs a t tw o and m o re m a x im u m a llo w a b le values o f p a ra m e te rs s im u lta n e o u sly.
It is a llo w e d to s o ld e r th e tra n s is to r leads a t a dista nce o f at least 5 mm fro m the tra n s is to r case w ith the use o f a lc o h o l-c o lo p h o n y flu x <t>KCn o f the fo llo w in g c o m p o s itio n : c o lo p h o n y — -40%, ethyl a lc o h o l — 6 0 % .
T h e d ip s o ld e rin g sho uld last f o r no lo n g e r th a n 5 s at a te m p e ra tu re o f not h ig h e r th a n 260° C.
W h e n a s o ld e rin g iro n w ith a n a r r o w b it is used, a re lia b le h e ct a b s tra c tio n sh o u ld be p ro v id e d betw een the s o ld e r jo in t and tr a n s is to r case.
S o ld e rin g sho uld last fo r no lo n g e r th a n 5 s at a te m p e ra tu re o f n o t h ig h e r th a n 260° C.
T h e s o ld e rin g iro n b o d y sho uld be g ro u n d e d . P r io r to s o ld e r
in g , be sure to w ip e the leads w ith a lc o h o l.
Th e leads m a y be be nt a t a dista nce o f a t least 3 m m fro m the tra n s is to r case. M easures sho uld be ta ke n to en sure fix e d p o sitio n o f th e lead betw een th e p o in t b e n d in g and the glass in s u la to r so as to p re v e n t d a m a g e o f the lead jo in t w ith th e glass in s u la to r w h ic h m ay cause d e te rio r a tio n o f the tra n s is to r se a lin g .
TpaH3MCTopbi
M a n o i i m o l u h o c t mcpeflHeii
m o c t o t mL o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
O B I M H E C B E f l E H M H
KpeMHHCBbie n n aH apH bie n-p-n TpaH3MCTopbi 11307.. .n 3 0 7 r , n 3 0 8 , F1309 npeAHa3HaneHbi An« p a6oTb i bcxe M a x paAHO Bem aTenb- HblX npweMHMKOB, TefieBM30p0B, CTa6HnH3aTopOB HanpBWeHMH M
bA p y ro ü a n n a p a T y p e u jH p o x o ro npHMeHeHHB.
O cjjopM ncH M c — b M eTann H H ecK O M repM eTM HH O M K o p n y c e C rMÔKHMM BblBOAOMM.
T e M n e p a T y p a oxpyw aho m efi cpeAbi o t —40 a o + 7 0 °C . M acca T p a H 3 H C T o p a He 6onee 2 r.
G E N E R A L
S ilico n p la n a r n-p-n tra n s is to rs 11307.. .113071“ , 11308, 11309 a re designed fo r use in the c irc u its o f b ro a d ca st re ceivers, T V sets, vo lta g e re g u la to rs and in o th e r e q u ip m e n t o f w id e a p p lic a tio n .
M o u n tin g — in a m etal sealed case w ith fle x ib le leads.
A m b ie n t te m p e ra tu re — fro m — 40 to + 7 0 ° C.
T ra n s is to r mass — 2 g, m a x.
72
T p a H 3 M C T o p b i
m o t i o nMOL 14 HOCTM c p e flH e ii n a c T O T b i L o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
O C H O B H b l E T E X H H H E C K M E f l A H H b l E B A S I C T E C H N I C A L C H A R A C T E R I S T I C S
3 n c K T p t m e c K M e n a p a n e T p b i E l e c t r i c a l P a r a m e t e r s
riapaMCTpbi 06o3HaHeHHH
3HaMeHHN Value
PoKMMbl MÎMCpCH M H Measuring conditions
Parameter Designation HC MCMCC
min
He 60/iee max
Uc b: U 'c e: l/*'EB . v
/c ; ! ’ &'■
mA f. M H i
H a n a n b H b iii t o k K o n n e K T o p a (fiBE^ 1 0 kf2), m kA
C o ll e c lo r c u t-o ff c u r r e n t , ( R b e ^ O k O h m ) , / / A n307B
'cBS
50 60*
n 3 0 7 . . ,n307B , m o 7 r - 50 80* - -
n308, n309 - 50 120* - -
0 6 pQTH bl ii TOK, m k A :* . • R e v e rs e c u r r e n t , / / A :
K o n n e K T o p a c o lle c to r
n307B
'cB O
20 60
n 3 0 7 ...n 3 0 7 6 , m o 7 r - 20 80 - -
n308, n309 - 20 120 - -
3M M TTepa e m i t t e r
'eb o — 10 3* * — —
Ko3(j)cf>nt4MeHT nepeAOMH t o k o b cxeM e c o6lumm 3 mMTTepoM b pe)KHMe M a n o r o C H TH a/ia
C u r r e n t - t r a n s f e r r a t i o f o r c o m m o n - e m it t e r c ir c u it u n d e r lo w - le v e l s ig n a l o p e r a tio n s
^ Ib 20 1 0 **
n307, n 3 0 7 r, n309 16 50 -
n307A, n308 30 90 -
n307B, n307B SO 150 -
M o fly /ib K03({i4)m4MeHTa n e p e fla n n t o k o Ha BbicoK oii nacT O T e
M o d u lu s o f c u r r e n t - t r a n s f e r r a t i o a t h ig h fr e q u e n c y
h21e 2 - 20 4 * * 10
C o n p oTM B jieH M e H a c b im e m m b p e * M M e M a n o r o c w rH a n a , O m :
S a t u r a t io n re s is ta n c e u n d e r lo w - le v e l s ig n a l o p e r a tio n s . O h m :
r CE sat 15; 3*
11307 150
~ -
n307A. n309 200 — -
n 3076, H308 - 330 - -
ri307B, ri3 0 7 r - 250 - -
B xo A H o e c o n p o TM B /ieH H e b pewMMe M a n o r o C H T H ana, Om
In p u t res ista n c e u n d e r lo w - le v e l s ig n a l o p e r a tio n s , O h m
h11b - 70 20 1 0 ** -
73
i & m m m
TpaH 3M C Topbi M a /io ii
m o l i j h o c t hc p e flH e ii H a c ro T b i L o w -P o w e r M e d iu m -F r e q u e n c y T r a n s is to r s
i l p e A e / i b H b i e 3H Q H e H M f l f l o n y c T M M b i x p e w M M O B 3K c n n y a T a i4H M
M a x i m u m V a l u e s o f A l l o w a b l e O p e r a t i n g C o n d i t i o n s
^amb = H a n p n > K e H M e , B :
M O K fly K O n n e K T O p O M M 3 M M T T e p O M
( ^ b e ^ 1 ^ 0 kO M ) UCE m a x u M e > K A y K o n n e K T o p o M h 6 a 3 o £ i U c & max :
n307, m o 7 A , n 3 0 7 5 , n 3 0 7 r n307B
n308, ri309
M O K f ly 3 M M TTepO M h 6 a 3 o i i U E B m a x
To k, mA : K o n n e K T o p a :
n OCTOfl H H bl if / c m ax
n307, n307A, n307B, n309 n307B, n307r, n308
H M n y n b C H b iii / CM max
3mHTTe p a / E m ax:
n307, n307A , n307B , n 3 09 n307B . n 3 0 7 r, n308
M oujH O C Tb H a K O/ineKTOpe P c m a x '' M^ T
- 4 0 . . . + 7 0 °C
V o lta g e , V :
c o lle c to r - e m itte r (RBE<^100 k O m ) UCE max a n d c o lle c to r-b a s e UCR max:
80 n307, n3 0 7A , n307B , H 3 0 7 r
60 n307B
120 n308, n309
3 e m itte r- b a s e v o lta g e U EB mQX
C u r r e n t, m A : c o lle c t o r :
d i r e c t ' c m a x
30 n307, n307A, ri307B. n309
15 n307B, n307r, n308
1 2 0 pulse l r m• C M m a x
e m it t e r / E m3X:
30 n307, I1307A, n307B, n309
15 n307B, n 3 0 7 r, n308
250 P o w e r a t c o lle c to r Pc mox\ m W
’ n p x lamb o r 10 n o 70 °C s h d h e h h o m o u j h o c t h c H H K a c T c f i h o ' W i t h f a m b r a n g in g f r o m 10 to 70 ° C . th e p o w e r d e c re a s e s by
1,15 mBt/ ° C . 1.25 m W / ° C .
2.2
2,01,8
1,5
1.2
1.0 0,8 0.6 DA 0.2 0
I s ,mA
% =0
.
/ / s v
/ 1
/
j /
_
Use/0.2 0.3 Ofy 0.5 0.6 0.7 0.80.05
Tunoabie exodHbte xapOKm epucmuKu e cxeM e c o6u/u m J M u m - mepOM
S tandard in p u t ch a racte ristics f o r com m o n -e m itte r c irc u it
3 a e ucun ocm u «oag50uqueH m a nepeda^u moKa e c x e M e c 06- u fum iMummepOM e p e > cuM e tia n o io cuiHana om m e nnepa- mypbi oK pyxcaiouteu cpedbi
Relation between c u rre n t-tra n s fe r ra tio in co m m o n -e m itte r c irc u it in lo w -le v e l signa l operation and am bient tem perature
TpaH 3M C Topbi M an o íí m o iu h o c tm cp e flH e íí n a c T O T b i L o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
75
T p a H 3 M C T o p b i M a rio n
m o u4
h o c t hc p e flH e ii n a c r o T b i L o w -P o w e r M e d iu m -F re q u e n c y T ra n s is to rs
\
\
\ f -
UC8,V
10 12 Ik IB 18 20
3 ae u cu n o c m b e « n o c m u KonneKmopHOio nepexoda om na n p n - xcerniH KonneKmop-6o3a
R e la tio n b e tw e e n c o lle c to r - ju n c tio n c a p a c ita n c e a n d c o lle c to r - base vo lta g e
3aeucuM ocm b om nocumenbHou eenuvuHbi Hau6onbwezo h o -
npHXceHUn KonneKm op-3M um m ep om conpom uenenu)i e i/enu 6 a ]a -3 M u m m e p
R e la tio n b e tw e e n re la tiv e v a lu e o f m a x im u m c o lle c to r - e m itte r vo lta g e a n d re s is ta n c e in b a s e -e m itte r c ir c u it
Y K A 3 A H H fl n o n P M M E H E H M K ) H 3 K C n n Y A T A l4 H M
f l a i i K a BbiBOflOB f l o n y c K a e T c s H a p a c c T o s H M M H e M e H e e 5 m m o t K o p n y c a T p a H 3 H C T o p a b T e w e H n e H e 6 o n e e 10 c.
M 3 rw 6 BbiBOflOB A o n y c K a e T c n h o paccTOHHMM He MeHee 5 m m o t K o p n y c a .
T e M n e p a T y p a n aiiK H He Aon>KHa n p e s b iu ja T b 260 °C .
PeKOMeHAyeTca npw SKcn-nyaTayHH TpaH3MCTopa yH H T bisa T b B03M0WH0CTb e r o caM0B036y>KAeHMn k o k B b ic o K O H a c ro T H o ro 3 n e - MeHTa c 6onbuiM M K03$4>ni4neHT0M ycwneHMn.
I N S T R U C T I O N S O N USE
Leads m ay be so ld e re d at a dista nce o f at least 5 m m fro m the- tra n s is to r case fo r no lo n g e r tha n 10 s.
Leads m a y be be nt a t a distance o f a t least 5 m m fro m the case.
T h e s o ld e rin g te m p e ra tu re sho uld no t exceed 260° C.
W h ile in service , i t is re com m e nde d to ta k e In to a cco u n t the p o s s ib ility o f tra n s is to r se lf-e x c ita tio n as a h ig h -fre q u e n c y e le m e n t w ith a h ig h g a in .
76
