Elektromagnetische Verträglichkeit:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | German |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2007
|
| Ausgabe: | 5., aktualisierte und erg. Aufl. |
| Schlagworte: | |
| Online-Zugang: | Inhaltstext Inhaltsverzeichnis |
| Beschreibung: | XII, 530 S. Ill., graph. Darst. |
| ISBN: | 9783540420040 3540420045 |
Internformat
MARC
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| 100 | 1 | |a Schwab, Adolf J. |d 1937- |e Verfasser |0 (DE-588)121634566 |4 aut | |
| 245 | 1 | 0 | |a Elektromagnetische Verträglichkeit |c Adolf J. Schwab ; Wolfgang Kürner |
| 250 | |a 5., aktualisierte und erg. Aufl. | ||
| 264 | 1 | |a Berlin [u.a.] |b Springer |c 2007 | |
| 300 | |a XII, 530 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
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| 655 | 7 | |8 2\p |0 (DE-588)4123623-3 |a Lehrbuch |2 gnd-content | |
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| 689 | 0 | |8 3\p |5 DE-604 | |
| 700 | 1 | |a Kürner, Wolfgang |d 1972- |e Verfasser |0 (DE-588)133743489 |4 aut | |
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Datensatz im Suchindex
| _version_ | 1805089505281048576 |
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* * * * * * * * * * * * * * * * * * * * * * * * * * * * IM Z E I T - U N
D * F R E Q U E N Z B E R E I C H 4 4 * 1.6.1* D A R S T E L L
U N G P E R I O D I S C H E R Z E I T B E R E I C H S F U N K T I
O N E N IM* F R E Q U E N Z B E R E I C H D U R C H E I N E
F O U R I E R - R E I H E 4 5 * 1.6.2* D A R S T E L L U N G
NICHT P E R I O D I S C H E R Z E I T B E R E I C H S F U N K T I O N
E N IM* F R E Q U E N Z B E R E I C H - FOURIER-INTEGRAL 51*
1.6.3* EMV-TAFEL 55* 1.6.3.1 UE B E R G A N G V O M Z E I T B E R E
I C H I N D E N F R E Q U E N Z B E R E I C H 55* 1.6.3.2 R
UE C K K E H R V O M F R E Q U E N Z B E R E I C H I N D E N
Z E I T B E R E I C H 5 8 * 1.6.3.3 B E R UE C K S I C H T I G U
N G D E S UE B E R T R A G U N G S W E G S * 61* 2 S T OE R Q
U E L L E N * 6 3 * 2.1 K L A S S I F I Z I E R U N G V O N
S T OE R Q U E L L E N * 65* 2.2 S C H M A L B A N D I G E S T OE R
Q U E L L E N * 67* 2.2.1* K O M M U N I K A T I O N S S E N D E R
6 7 * 2.2.2* H F - G E N E R A T O R E N F UE R I N D U S T R
I E , F O R S C H U N G , M E D I Z I N U N D H A U S H A L
T . . 71* V I I I * I N H A L T S V E R Z E I C H N I S 2.2.3*
F U N K E M P F AE N G E R - B I L D S C H I R M G E R AE T E R E C
H N E R S Y S T E M E - S C H A L T N E T Z T E I L E 73* 2 . 2 .
4 * N E T Z R UE C K W I R K U N G E N 74* 2.2.5* B E E I N F L U S
S U N G E N D U R C H S T A R K S T R O M L E I T U N G E N 75*
2.3 I N T E R M I T T I E R E N D E B R E I T B A N D S T OE R Q U E L
L E N * 76* 2.3.1* G R U N D S T AE R P E G E L IN S T AE D T E N
76* 2 . 3 . 2 * K F Z - Z UE N D A N L A G E N 76* 2.3.3* G A S E N
T L A D U N G S L A M P E N 78* 2 . 3 . 4 * K O M M U T A T O R M
O T O R E N 79* 2.3.5* H O C H S P A N N U N G S F R E I L E I T U N
G E N 80* 2.4 T R A N S I E N T E B R E I T B A N D S T AE R Q U E
L L E N * 81* 2.4.1* E L E K T R O S T A T I S C H E E N T L A D U
N G E N 81* 2.4.2* G E S C H A L T E T E I N D U K T I V I T AE T E
N 85* 2.4.3* T R A N S I E N T E N IN N I E D E R S P A N N U N G
S N E T Z E N 88* 2 . 4 . 4 * T R A N S I E N T E N IN H O C H
S P A N N U N G S N E T Z E N 88* 2.4.5* T R A N S I E N T E N I N
D E R H O C H S P A N N U N G S P R UE F T E C H N I K U N D
P L A S M A P H Y S I K . 9 2 * 2 . 4 . 6 * B L I T Z E - L
E M P 9 2 * 2 . 4 . 7 * N U K L E A R E R E L E K T R O M A
G N E T I S C H E R PULS - N E M P 93* 2.5 U M G E B U N G S K L A
S S E N * 95* 2.5.1* L E I T U N G S G E B U N D E N E S T OE R U N
G E N 95* 2 . 5 . 2 * S T AE R S T R A H L U N G 97* 3 K O P
P E L M E C H A N I S M E N U N D G E G E N M A SS N A H M E N *
9 9 * 3.1 G A L V A N I S C H E K O P P L U N G * 9 9 *
3.1.1* G A L V A N I S C H E K O P P L U N G V O N B E T R I E
B S S T R O M K R E I S E N 100* 3 . 1 . 2 * E R D S C H L E I F E
N 105* 3.1.3* K O P P L U N G S I M P E D A N Z V O N MESS- U N
D S I G N A L L E I T U N G E N 118* 3 . 1 . 4 * R UE C K W AE R
T I G E R UE B E R S C H L A G 125* 3.2 K A P A Z I T I V E K O
P P L U N G * 126* 3.3 I N D U K T I V E K O P P L U N G * 129*
3.4 E L E K T R O M A G N E T I S C H E L E I T U N G S K O P P L U N
G * 134* 3.4.1* E L E K T R O M A G N E T I S C H E K O P P L U N
G Z W E I E R L E I T U N G E N 135* 3.4.2* E L E K T R O M A G
N E T I S C H G E K O P P E L T E M E H R L E I T E R S Y S T E M
E 138* 3.5 S T R A H L U N G S K O P P L U N G * 142* 3.5.1* A B S
T R A H L U N G D U R C H G L E I C H T A K T S T R AE M E 147*
3.5.2* A B S T R A H L U N G D U R C H G E G E N T A K T S T R AE M
E 148* 3.6 E R D U N G V O N K A B E L S C H I R M E N *
149* 3.7 I D E N T I F I K A T I O N V O N K O P P L U N G S M E C
H A N I S M E N * 151* 3.8 B E S C H R E I B U N G V O N K O P
P L U N G S M E C H A N I S M E N M I T HILFE N U M E R I S C H E
R M E T H O D E N 154* 4 P A S S I V E E N T S T AE R K O M P
O N E N T E N * 157* 4.1 F I L T E R * 157* I N H A L T S V E R Z
E I C H N I S I X 4.1.1 W I R K U N G S P R I N Z I P - F I L T
E R D AE M P F U N G 157* 4.1.2 F I L T E R FUER G L E I C H - U N D
G E G E N T A K T S T OE R U N G E N 161* 4.1.3 F I L T E R R E S O
N A N Z E N 163* 4.1.4 D I S S I P A T I V E D I E L E K T R I K A
U N D M A G N E T I K A 165* 4.1.5 F I L T E R B A U F O R M E
N 1 6 8 * 4.1.5.1 K O N D E N S A T O R E N 1 6 8 * 4 . 1 .
5 . 2 D R O S S E L N 170* 4.1.5.3 L C - F I L T E R 173* 4.2 UE
B E R S P A N N U N G S A B L E I T E R 177* 4.2.1 V A R I S T O R E
N 1 7 8 * 4.2.2 S I L I Z I U M - L A W I N E N D I O D E N 1 8
2 * 4.2.3 F U N K E N S T R E C K E N 183* 4 . 2 . 4 H Y B R I
D - A B L E I T E R S C H A L T U N G E N 1 8 6 * 4.3 O P T O K O
P P L E R U N D L I C H T L E I T E R S T R E C K E N 1 8 8 *
4 . 4 T R E N N T R A N S F O R M A T O R E N 1 9 0 * 5 E
L E K T R O M A G N E T I S C H E S C H I R M E 1 9 5 * 5.1 N A
T U R D E R S C H I R M W I R K U N G - N A H F E L D , F E
R N F E L D 195* 5.2 S C H I R M U N G S T A T I S C H E R F E
L D E R 2 0 5 * 5.2.1 E L E K T R O S T A T I S C H E F E L D E
R 2 0 5 * 5.2.2 M A G N E T O S T A T I S C H E F E L D E R
2 0 6 * 5.3 S C H I R M U N G Q U A S I S T A T I S C H E R F E
L D E R 207* 5.3.1 E L E K T R I S C H E W E C H S E L F E L D E R
2 0 7 * 5.3.2 M A G N E T I S C H E W E C H S E L F E L D E R
2 0 8 * 5 . 4 S C H I R M U N G E L E K T R O M A G N E T I
S C H E R W E L L E N 2 1 0 * 5.5 S C H I R M M A T E R I A L I
E N 211* 5.6 S C H I R M Z U B E H AE R 2 1 4 * 5.6.1 D I C H T
U N G E N F UE R S C H I R M F U G E N 2 1 4 * 5.6.2 K A M I
N D U R C H F UE H R U N G E N , W A B E N K A M I N F E N S T E R ,
L O C H B L E C H E 2 1 6 * 5.6.3 N E T Z F I L T E R U N D
E R D U N G 2 1 8 * 5.7 G E S C H I R M T E R AE U M E F UE
R M E S S T E C H N I S C H E A N W E N D U N G E N 2 1 9 *
5.7.1 R E F L E X I O N S A R M E S C H I R M R AE U M E - A B S O
R B E R R AE U M E 2 2 0 * 5.7.2 M O D E N V E R W I R B E L U N G
S K A M M E R N 2 2 2 * 5.7.3 T E M - M E S S Z E L L E N 2 2 8
* 5 . 7 . 4 G T E M - Z E L L E N 2 2 9 * 6 T H E O R I E
E L E K T R O M A G N E T I S C H E R S C H I R M E 2 3 3 *
6.1 A N A L Y T I S C H E S C H I R M B E R E C H N U N G 2 3 4 *
6.1.1 T H E O R E T I S C H E G R U N D L A G E N 2 3 4 *
6.1.2 Z Y L I N D E R S C H I R M IM L O N G I T U D I N A L E N F
E L D 2 3 7 * 6.1.3 Z Y L I N D E R S C H I R M IM T R A N S V
E R S A L E N F E L D 2 4 4 * 6 . 1 . 4 Z Y L I N D E R S C
H I R M IM E L E K T R O M A G N E T I S C H E N W E L L E N F E L
D 2 5 1 * X * I N H A L T S V E R Z E I C H N I S 6.1.5* K U
G E L S C H I R M IM E L E K T R O M A G N E T I S C H E N
WEL1ENFELD 2 6 0 * 6.2 I M P E D A N Z K O N Z E P T * 2 6 2 *
6.2.1* K L A S S I S C H E B E T R A C H T U N G S W E I S E 2 6 2
* 6.2.1.1* R E F L E X I O N S D AE M P F U N G 264* 6.2.1.2* A B S
O R P T I O N S D AE M P F U N G 2 6 7 * 6.2.1.3* D AE M P F U N G S
K O R R E K T U R F UE R M U L T I P L E R E F L E X I O N E N
2 6 8 * 6.2.2* E R W E I T E R T E S I M P E D A N Z K O N Z E
P T 269* 6.2.3* Z U S A M M E N F A S S U N G DES I M P E D A N Z
K O N Z E P T S 2 7 6 * 7 E M V - E M I S S I O N S M E S S T E
C H N I K * 2 7 9 * 7.1 M E S S U N G V O N S T OE R S P A N
N U N G E N U N D - S T R OE M E N * 280* 7.2 M E S S U N G V
O N S T OE R F E L D S T AE R K E N * 2 8 7 * 7.2.1* A N T E N N
E N 287* 7.2.1.1* E-FELD A N T E N N E N 287* 7.2.1.2* B R E I T B
A N D A N T E N N E N . 290* 7.2.1.3* H - F E L D A N T E N N E N
293* 7.2.1.4* S C H N UE F F E L A N T E N N E N 2 9 4 *
7.2.1.5* F E L D S O N D E N 295* 7.2.1.6* A N T E N N E N - S Y M M
E T R I E R UE B E R T R A G E R 295* 7.2.2* M E S S G E L AE N D E
U N D M E S S P L AE T Z E 297* 7.3 M E S S U N G V O N S T OE
R L E I S T U N G E N * 303* 7.4 E M B - M E S S G E R AE T E * 3 0
4 * 7.4.1* S T OE R M E S S E M P F AE N G E R 305* 7.4.1.1* S P I T
Z E N W E R T A N Z E I G E 3 0 6 * 7 .4.1.2* Q U A S I - S P I T
Z E N W E R T A N Z E I G E 307* 7.4.1.3* M I T T E L W E R T A N Z E
I G E 310* 7.4.1.4* E F F E K T I V W E R T A N Z E I G E 311*
7.4.1.5* E I N F L U S S D E R E M P F AE N G E R B A N D B R E I T
E A U F DIE ANZEIGE V O N * S C H M A L - U N D B R E I T B
A N D S T OE R U N G E N 313* 7.4.2* S P E K T R U M A N A L Y S A T O
R E N 315* 7.5 M E S S U N S I C H E R H E I T I N D E R E M
V * 316* 7.6 A U T O M A T I S I E R T E E M V - M E S S P L AE T Z
E * 320* 8 E M V - S T OE R F E S T I G K E I T S P R UE F T E C H N
I K * 3 2 3 * 8.1 S I M U L A T I O N L E I T U N G S G E B U N
D E N E R S T OE R G R OE SS E N * 324* 8.1.1* S I M U L A T I O N
V O N N I E D E R F R E Q U E N Z S T OE R U N G E N IN* N I E D E
R S P A N N U N G S N E T Z E N ( M S - I M P U L S E ) 327*
8.1.2* S I M U L A T I O N B R E I T B A N D I G E R E N E R G I E
A R M E R S C H A L T S P A N N U N G S S T OE R U N G E N *
(BURST) 3 2 8 * 8.1.3* S I M U L A T I O N B R E I T B A N D I G E
R E N E R G I E R E I C H E R UE B E R S P A N N U N G E N * ( H
Y B R I D G E N E R A T O R ) 331* 8 . 1 . 4 * S I M U L A T O R E
N F UE R E L E K T R O S T A T I S C H E E N T L A D U N G E N
(ESD) 337* 1 * I N H A L T S V E R Z E I C H N I S * X I
8.1.5* S I M U L A T I O N S C H M A L B A N D I G E R S T OE R U N
G E N 341* 8.1.6* K O M M E R Z I E L L E G E R AE T E 3 4 2 *
8.2 S I M U L A T I O N Q U A S I S T A T I S C H E R F E L D E
R U N D E L E K T R O M A G N E T I S C H E R W E L L E N
345* 8.2.1* S I M U L A T I O N S C H M A L B A N D I G E R S T OE
R F E L D E R 3 4 5 * 8.2.1.1 S P E Z I A L A N T E N N E N ,
OFFENE U N D G E S C H L O S S E N E W E L L E N L E I T E R 3
4 7 * 8.2.1.2 V E R S T AE R K E R * 3 5 2 * 8.2.2* S I M U L A
T I O N B R E I T B A N D I G E R E L E K T R O M A G N E T I S C
H E R W E L L E N F E L D E R 3 5 3 * 8.2.3* S I M U L A T I O
N Q U A S I S T A T I S C H E R F E L D E R U N D E L E K T
R O M A G N E T I S C H E R W E L L E N * D U R C H S T R O M I
N J E K T I O N 3 5 5 * 8.2.3.1 S T R O M I N J E K T I O N S P R
UE F U N G E N A N K A B E L N U N D G E H AE U S E S C H I R
M E N 3 5 6 * 8.2.3.2 P R UE F U N G D E R S T OE R E M P F I
N D L I C H K E I T V O N G E R AE T E N D U R C H * S T R O
M I N J E K T I O N I N D E R E N K A B E L B AE U M E 3 5 7
* 9 E M V - E N T S T AE R M I T T E L M E S S U N G E N * 3 5 9
* 9.1 S C H I R M D AE M P F U N G V O N K A B E L S C H I R M E
N * 3 5 9 * 9.1.1* S C H I R M D AE M P F U N G FUER Q U A S I S
T A T I S C H E M A G N E T F E L D E R * ( K O P P L U N G S I M
P E D A N Z ) 3 5 9 * 9.1.2* S C H I R M D AE M P F U N G FUER Q
U A S I S T A T I S C H E E L E K T R I S C H E F E L D E R ( T
R A N S T E R - * A D M I T T A N Z ) 361* 9.1.3* S C H I R M D AE M P
F U N G F UE R E L E K T R O M A G N E T I S C H E W E L L E N
( S C H I R M U N G S M A SS ) 3 6 2 * 9.2 S C H I R M D AE M P F
U N G V O N G E R AE T E G E H AE U S E N U N D S C H I R M R
AE U M E N * 3 6 3 * 9.3 I N T R I N S I C - S C H I R M D AE M P F
U N G V O N S C H I R M M A T E R I A L I E N * 3 7 0 *
9.3.1* KOAXIALE TEM - M E S S Z E L L E M I T D U R C H G E H E N
D E M I N N E N L E I T E R 3 7 0 * 9.3.2* K O A X I A L E T
E M - M E S S Z E L L E MIT G E S T O SS E N E M I N N E N L E I T
E R 3 7 1 * 9.3.3* D O P P E L TEM -MESSZELLE 372* 9.4 S C H I
R M D AE M P F U N G V O N D I C H T U N G E N * 3 7 4 * 9.5
R E F L E X I O N S D AE M P F U N G V O N A B S O R B E R W AE N D
E N * 3 7 6 * 9.6 F I L T E R D AE M P F U N G * 3 7 9 * 10 R
E P R AE S E N T A T I V E E M V - P R O B L E M E * 3 8 3 * 10.1 E
N T S T OE R U N G V O N M A G N E T S P U L E N * 3 8 3 *
10.1.1* B E S C H A L T U N G G L E I C H S T R O M B E T R I E B E N
E R M A G N E T S P U L E N 3 8 4 * 10.1.2* B E S C H A L T U N
G W E C H S E L S T R O M B E T R I E B E N E R M A G N E T S P U
L E N 3 8 5 * 10.2 F U N K E N T S T OE R U N G V O N U N I V
E R S A L M O T O R E N * 3 8 6 * 10.3 E L E K T R O S T A T I S C
H E E N T L A D U N G E N * 3 8 9 * 10.4 N E T Z R UE C K W I R
K U N G E N * 391* 10.5 B L I T Z S C H U T Z - B L I T Z S C H U
T Z Z O N E N - K O N Z E P T . . * 3 9 3 * 10.6 PULSE P O W E R
T E C H N I K - H O C H S P A N N U N G S L A B O R A T O R I E N
* 3 9 5 * 10.7 M E S S U N G E N M I T D I F F E R E N Z V E
R S T AE R K E R N * 4 0 3 * 10.8 EMV G E R E C H T E R S C H A
L T S C H R A N K B A U I N D E R A U T O M A T I S I E R U N G
S T E C H N I K 4 0 5 * 10.9 EMV IN D E R M E D I Z I N T E C H
N I K * 4 0 9 * 10. 10 W I R K U N G E L E K T R O M A G N E T
I S C H E R F E L D E R A U F O R G A N I S M E N * 4 1 2 *
X I I * I N H A L T S V E R Z E I C H N I S 10.11 A N A L Y S E
V O N E M V - P R O B L E M E N K O M P L E X E R S Y S T E
M E * . 418* 11 E M V G E R E C H T E R E N T W U R F E L E
K T R O N I S C H E R B A U G R U P P E N * 421* 11.1 L E I T E R
P L A T T E N W A H L * . 421* 11.2 I N T R A S Y S T E M - B E E I
N F L U S S U N G E N * . 4 2 6 * 11.2.1 S T OE R S I G N A L V E R
K O P P L U N G E N UE B E R G E M E I N S A M E I M P E D A N Z
E N . 4 2 6 * 11.2.1.1* A U S F UE H R U N G D E R S T R O M
V E R S O R G U N G S L E I T U N G E N . 426* 11.2.1.2* S T UE T Z U
N G D E R V E R S O R G U N G S S P A N N U N G . 427*
11.2.1.3* G E S T A L T U N G D E R S C H A L T U N G S M A S S E
. 430* 11.2.2 UE B E R S P R E C H E N Z W I S C H E N P A R A
L L E L E N L E I T E R B A H N E N * . 433* 11.2.2.1* N E B E N S
P R E C H E N U N D G E G E N S P R E C H E N 433* 1 1 . 2 . 2
. 2 * A L L G E M E I N E M A SS N A H M E N Z U R R E D U Z
I E R U N G DES* UE B E R S P R E C H E N S . 436* 11.2.3 S I G N A
L R E F L E X I O N E N A U F L A N G E N L E I T U N G E N *
438* 11.2.3.1* V E R M E I D U N G V O N R E F L E X I O N E N
D U R C H L E I T U N G S F UE H R U N G . 439* 11.2.3.2* A N P
A S S N E T Z W E R K E . 442* 11.3 I N T E R S Y S T E M - B E E I N
F L U S S U N G D U R C H S T OE R A B S T R A H L U N G * 444*
11.3.1 A B S T R A H L U N G V O N S I G N A L S T R O M S C H L E
I F E N * . 4 4 4 * 11.3.2 A B S T R A H L U N G S P R O B L E M E
B E I H O C H I N T E G R I E R T E N S C H A L T U N G E N
446* 11.3.3 M A SS N A H M E N A N S T OE R Q U E L L E N * .
449* 12 E M V - N O R M U N G * 4 5 3 * 12.1 E I N F UE H R U N G
I N DAS E M V - V O R S C H R I F T E N W E S E N * . 453* 12.2
E M V - N O R M U N G S G R E M I E N * . 4 5 4 * 12.3 R E C H T L
I C H E G R U N D L A G E N D E R EMV - N O R M U N G * .
458* 12.4 N A C H W E I S D E R K O N F O R M I T AE T M I T
D E M E M V - G E S E T Z * . 462* 12.5 B E N A N N T E S T E
L L E N * . 468* 12.6 E M V - N O R M E N * 4 7 0 * 12.6.1 E M
V - N O R M E N N A C H P R O B L E M K R E I S E N G E O R
D N E T . . * 471* 12.6.2 E M V - N O R M E N N A C H E U R O P
A N O R M E N G E O R D N E T * . 483* 12.7 W I C H T I G E A N
S C H R I F T E N * . 492* L I T E R A T U R * 4 9 5 * I N D E
X * 5 2 1 * |
| adam_txt |
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* * * * * * * * * * **** * * * * * * * * * * * * * * * * * * * * * * * *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* * * * * * * * * * * * **** * * * * * * * * * * * * * * * * * * * * * *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
******* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* * * * * * ***** **** * * * ******* * * * * * * * * * * * * * * * * * *
* * * * * * * * **** ******* * * * * * * * * * * * * * * * * * * * * * *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* * * **** ******* * * * * * * * * * * * * * * * * * * * * * * * * * * *
* * * * * * * ******* * * * * * * * * * * * * * * * * * * * * * * * * *
* **** ******* * * * * * * * * * * * * * * * * * **** * * * * * * * * *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * **** **** * * *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
**** * * * * * * * * * * * * * * * * * * * * ******* * * * * * * * * *
******* * * * * * * **** ***** * * * * * * * * * * * * * * * * * * * * *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * IM Z E I T - U N
D * F R E Q U E N Z B E R E I C H 4 4 * 1.6.1* D A R S T E L L
U N G P E R I O D I S C H E R Z E I T B E R E I C H S F U N K T I
O N E N IM* F R E Q U E N Z B E R E I C H D U R C H E I N E
F O U R I E R - R E I H E 4 5 * 1.6.2* D A R S T E L L U N G
NICHT P E R I O D I S C H E R Z E I T B E R E I C H S F U N K T I O N
E N IM* F R E Q U E N Z B E R E I C H - FOURIER-INTEGRAL 51*
1.6.3* EMV-TAFEL 55* 1.6.3.1 UE B E R G A N G V O M Z E I T B E R E
I C H I N D E N F R E Q U E N Z B E R E I C H 55* 1.6.3.2 R
UE C K K E H R V O M F R E Q U E N Z B E R E I C H I N D E N
Z E I T B E R E I C H 5 8 * 1.6.3.3 B E R UE C K S I C H T I G U
N G D E S UE B E R T R A G U N G S W E G S * 61* 2 S T OE R Q
U E L L E N * 6 3 * 2.1 K L A S S I F I Z I E R U N G V O N
S T OE R Q U E L L E N * 65* 2.2 S C H M A L B A N D I G E S T OE R
Q U E L L E N * 67* 2.2.1* K O M M U N I K A T I O N S S E N D E R
6 7 * 2.2.2* H F - G E N E R A T O R E N F UE R I N D U S T R
I E , F O R S C H U N G , M E D I Z I N U N D H A U S H A L
T . . 71* V I I I * I N H A L T S V E R Z E I C H N I S 2.2.3*
F U N K E M P F AE N G E R - B I L D S C H I R M G E R AE T E R E C
H N E R S Y S T E M E - S C H A L T N E T Z T E I L E 73* 2 . 2 .
4 * N E T Z R UE C K W I R K U N G E N 74* 2.2.5* B E E I N F L U S
S U N G E N D U R C H S T A R K S T R O M L E I T U N G E N 75*
2.3 I N T E R M I T T I E R E N D E B R E I T B A N D S T OE R Q U E L
L E N * 76* 2.3.1* G R U N D S T AE R P E G E L IN S T AE D T E N
76* 2 . 3 . 2 * K F Z - Z UE N D A N L A G E N 76* 2.3.3* G A S E N
T L A D U N G S L A M P E N 78* 2 . 3 . 4 * K O M M U T A T O R M
O T O R E N 79* 2.3.5* H O C H S P A N N U N G S F R E I L E I T U N
G E N 80* 2.4 T R A N S I E N T E B R E I T B A N D S T AE R Q U E
L L E N * 81* 2.4.1* E L E K T R O S T A T I S C H E E N T L A D U
N G E N 81* 2.4.2* G E S C H A L T E T E I N D U K T I V I T AE T E
N 85* 2.4.3* T R A N S I E N T E N IN N I E D E R S P A N N U N G
S N E T Z E N 88* 2 . 4 . 4 * T R A N S I E N T E N IN H O C H
S P A N N U N G S N E T Z E N 88* 2.4.5* T R A N S I E N T E N I N
D E R H O C H S P A N N U N G S P R UE F T E C H N I K U N D
P L A S M A P H Y S I K . 9 2 * 2 . 4 . 6 * B L I T Z E - L
E M P 9 2 * 2 . 4 . 7 * N U K L E A R E R E L E K T R O M A
G N E T I S C H E R PULS - N E M P 93* 2.5 U M G E B U N G S K L A
S S E N * 95* 2.5.1* L E I T U N G S G E B U N D E N E S T OE R U N
G E N 95* 2 . 5 . 2 * S T AE R S T R A H L U N G 97* 3 K O P
P E L M E C H A N I S M E N U N D G E G E N M A SS N A H M E N *
9 9 * 3.1 G A L V A N I S C H E K O P P L U N G * 9 9 *
3.1.1* G A L V A N I S C H E K O P P L U N G V O N B E T R I E
B S S T R O M K R E I S E N 100* 3 . 1 . 2 * E R D S C H L E I F E
N 105* 3.1.3* K O P P L U N G S I M P E D A N Z V O N MESS- U N
D S I G N A L L E I T U N G E N 118* 3 . 1 . 4 * R UE C K W AE R
T I G E R UE B E R S C H L A G 125* 3.2 K A P A Z I T I V E K O
P P L U N G * 126* 3.3 I N D U K T I V E K O P P L U N G * 129*
3.4 E L E K T R O M A G N E T I S C H E L E I T U N G S K O P P L U N
G * 134* 3.4.1* E L E K T R O M A G N E T I S C H E K O P P L U N
G Z W E I E R L E I T U N G E N 135* 3.4.2* E L E K T R O M A G
N E T I S C H G E K O P P E L T E M E H R L E I T E R S Y S T E M
E 138* 3.5 S T R A H L U N G S K O P P L U N G * 142* 3.5.1* A B S
T R A H L U N G D U R C H G L E I C H T A K T S T R AE M E 147*
3.5.2* A B S T R A H L U N G D U R C H G E G E N T A K T S T R AE M
E 148* 3.6 E R D U N G V O N K A B E L S C H I R M E N *
149* 3.7 I D E N T I F I K A T I O N V O N K O P P L U N G S M E C
H A N I S M E N * 151* 3.8 B E S C H R E I B U N G V O N K O P
P L U N G S M E C H A N I S M E N M I T HILFE N U M E R I S C H E
R M E T H O D E N 154* 4 P A S S I V E E N T S T AE R K O M P
O N E N T E N * 157* 4.1 F I L T E R * 157* I N H A L T S V E R Z
E I C H N I S I X 4.1.1 W I R K U N G S P R I N Z I P - F I L T
E R D AE M P F U N G 157* 4.1.2 F I L T E R FUER G L E I C H - U N D
G E G E N T A K T S T OE R U N G E N 161* 4.1.3 F I L T E R R E S O
N A N Z E N 163* 4.1.4 D I S S I P A T I V E D I E L E K T R I K A
U N D M A G N E T I K A 165* 4.1.5 F I L T E R B A U F O R M E
N 1 6 8 * 4.1.5.1 K O N D E N S A T O R E N 1 6 8 * 4 . 1 .
5 . 2 D R O S S E L N 170* 4.1.5.3 L C - F I L T E R 173* 4.2 UE
B E R S P A N N U N G S A B L E I T E R 177* 4.2.1 V A R I S T O R E
N 1 7 8 * 4.2.2 S I L I Z I U M - L A W I N E N D I O D E N 1 8
2 * 4.2.3 F U N K E N S T R E C K E N 183* 4 . 2 . 4 H Y B R I
D - A B L E I T E R S C H A L T U N G E N 1 8 6 * 4.3 O P T O K O
P P L E R U N D L I C H T L E I T E R S T R E C K E N 1 8 8 *
4 . 4 T R E N N T R A N S F O R M A T O R E N 1 9 0 * 5 E
L E K T R O M A G N E T I S C H E S C H I R M E 1 9 5 * 5.1 N A
T U R D E R S C H I R M W I R K U N G - N A H F E L D , F E
R N F E L D 195* 5.2 S C H I R M U N G S T A T I S C H E R F E
L D E R 2 0 5 * 5.2.1 E L E K T R O S T A T I S C H E F E L D E
R 2 0 5 * 5.2.2 M A G N E T O S T A T I S C H E F E L D E R
2 0 6 * 5.3 S C H I R M U N G Q U A S I S T A T I S C H E R F E
L D E R 207* 5.3.1 E L E K T R I S C H E W E C H S E L F E L D E R
2 0 7 * 5.3.2 M A G N E T I S C H E W E C H S E L F E L D E R
2 0 8 * 5 . 4 S C H I R M U N G E L E K T R O M A G N E T I
S C H E R W E L L E N 2 1 0 * 5.5 S C H I R M M A T E R I A L I
E N 211* 5.6 S C H I R M Z U B E H AE R 2 1 4 * 5.6.1 D I C H T
U N G E N F UE R S C H I R M F U G E N 2 1 4 * 5.6.2 K A M I
N D U R C H F UE H R U N G E N , W A B E N K A M I N F E N S T E R ,
L O C H B L E C H E 2 1 6 * 5.6.3 N E T Z F I L T E R U N D
E R D U N G 2 1 8 * 5.7 G E S C H I R M T E R AE U M E F UE
R M E S S T E C H N I S C H E A N W E N D U N G E N 2 1 9 *
5.7.1 R E F L E X I O N S A R M E S C H I R M R AE U M E - A B S O
R B E R R AE U M E 2 2 0 * 5.7.2 M O D E N V E R W I R B E L U N G
S K A M M E R N 2 2 2 * 5.7.3 T E M - M E S S Z E L L E N 2 2 8
* 5 . 7 . 4 G T E M - Z E L L E N 2 2 9 * 6 T H E O R I E
E L E K T R O M A G N E T I S C H E R S C H I R M E 2 3 3 *
6.1 A N A L Y T I S C H E S C H I R M B E R E C H N U N G 2 3 4 *
6.1.1 T H E O R E T I S C H E G R U N D L A G E N 2 3 4 *
6.1.2 Z Y L I N D E R S C H I R M IM L O N G I T U D I N A L E N F
E L D 2 3 7 * 6.1.3 Z Y L I N D E R S C H I R M IM T R A N S V
E R S A L E N F E L D 2 4 4 * 6 . 1 . 4 Z Y L I N D E R S C
H I R M IM E L E K T R O M A G N E T I S C H E N W E L L E N F E L
D 2 5 1 * X * I N H A L T S V E R Z E I C H N I S 6.1.5* K U
G E L S C H I R M IM E L E K T R O M A G N E T I S C H E N
WEL1ENFELD 2 6 0 * 6.2 I M P E D A N Z K O N Z E P T * 2 6 2 *
6.2.1* K L A S S I S C H E B E T R A C H T U N G S W E I S E 2 6 2
* 6.2.1.1* R E F L E X I O N S D AE M P F U N G 264* 6.2.1.2* A B S
O R P T I O N S D AE M P F U N G 2 6 7 * 6.2.1.3* D AE M P F U N G S
K O R R E K T U R F UE R M U L T I P L E R E F L E X I O N E N
2 6 8 * 6.2.2* E R W E I T E R T E S I M P E D A N Z K O N Z E
P T 269* 6.2.3* Z U S A M M E N F A S S U N G DES I M P E D A N Z
K O N Z E P T S 2 7 6 * 7 E M V - E M I S S I O N S M E S S T E
C H N I K * 2 7 9 * 7.1 M E S S U N G V O N S T OE R S P A N
N U N G E N U N D - S T R OE M E N * 280* 7.2 M E S S U N G V
O N S T OE R F E L D S T AE R K E N * 2 8 7 * 7.2.1* A N T E N N
E N 287* 7.2.1.1* E-FELD A N T E N N E N 287* 7.2.1.2* B R E I T B
A N D A N T E N N E N . 290* 7.2.1.3* H - F E L D A N T E N N E N
293* 7.2.1.4* S C H N UE F F E L A N T E N N E N 2 9 4 *
7.2.1.5* F E L D S O N D E N 295* 7.2.1.6* A N T E N N E N - S Y M M
E T R I E R UE B E R T R A G E R 295* 7.2.2* M E S S G E L AE N D E
U N D M E S S P L AE T Z E 297* 7.3 M E S S U N G V O N S T OE
R L E I S T U N G E N * 303* 7.4 E M B - M E S S G E R AE T E * 3 0
4 * 7.4.1* S T OE R M E S S E M P F AE N G E R 305* 7.4.1.1* S P I T
Z E N W E R T A N Z E I G E 3 0 6 * 7 .4.1.2* Q U A S I - S P I T
Z E N W E R T A N Z E I G E 307* 7.4.1.3* M I T T E L W E R T A N Z E
I G E 310* 7.4.1.4* E F F E K T I V W E R T A N Z E I G E 311*
7.4.1.5* E I N F L U S S D E R E M P F AE N G E R B A N D B R E I T
E A U F DIE ANZEIGE V O N * S C H M A L - U N D B R E I T B
A N D S T OE R U N G E N 313* 7.4.2* S P E K T R U M A N A L Y S A T O
R E N 315* 7.5 M E S S U N S I C H E R H E I T I N D E R E M
V * 316* 7.6 A U T O M A T I S I E R T E E M V - M E S S P L AE T Z
E * 320* 8 E M V - S T OE R F E S T I G K E I T S P R UE F T E C H N
I K * 3 2 3 * 8.1 S I M U L A T I O N L E I T U N G S G E B U N
D E N E R S T OE R G R OE SS E N * 324* 8.1.1* S I M U L A T I O N
V O N N I E D E R F R E Q U E N Z S T OE R U N G E N IN* N I E D E
R S P A N N U N G S N E T Z E N ( M S - I M P U L S E ) 327*
8.1.2* S I M U L A T I O N B R E I T B A N D I G E R E N E R G I E
A R M E R S C H A L T S P A N N U N G S S T OE R U N G E N *
(BURST) 3 2 8 * 8.1.3* S I M U L A T I O N B R E I T B A N D I G E
R E N E R G I E R E I C H E R UE B E R S P A N N U N G E N * ( H
Y B R I D G E N E R A T O R ) 331* 8 . 1 . 4 * S I M U L A T O R E
N F UE R E L E K T R O S T A T I S C H E E N T L A D U N G E N
(ESD) 337* 1 * I N H A L T S V E R Z E I C H N I S * X I
8.1.5* S I M U L A T I O N S C H M A L B A N D I G E R S T OE R U N
G E N 341* 8.1.6* K O M M E R Z I E L L E G E R AE T E 3 4 2 *
8.2 S I M U L A T I O N Q U A S I S T A T I S C H E R F E L D E
R U N D E L E K T R O M A G N E T I S C H E R W E L L E N
345* 8.2.1* S I M U L A T I O N S C H M A L B A N D I G E R S T OE
R F E L D E R 3 4 5 * 8.2.1.1 S P E Z I A L A N T E N N E N ,
OFFENE U N D G E S C H L O S S E N E W E L L E N L E I T E R 3
4 7 * 8.2.1.2 V E R S T AE R K E R * 3 5 2 * 8.2.2* S I M U L A
T I O N B R E I T B A N D I G E R E L E K T R O M A G N E T I S C
H E R W E L L E N F E L D E R 3 5 3 * 8.2.3* S I M U L A T I O
N Q U A S I S T A T I S C H E R F E L D E R U N D E L E K T
R O M A G N E T I S C H E R W E L L E N * D U R C H S T R O M I
N J E K T I O N 3 5 5 * 8.2.3.1 S T R O M I N J E K T I O N S P R
UE F U N G E N A N K A B E L N U N D G E H AE U S E S C H I R
M E N 3 5 6 * 8.2.3.2 P R UE F U N G D E R S T OE R E M P F I
N D L I C H K E I T V O N G E R AE T E N D U R C H * S T R O
M I N J E K T I O N I N D E R E N K A B E L B AE U M E 3 5 7
* 9 E M V - E N T S T AE R M I T T E L M E S S U N G E N * 3 5 9
* 9.1 S C H I R M D AE M P F U N G V O N K A B E L S C H I R M E
N * 3 5 9 * 9.1.1* S C H I R M D AE M P F U N G FUER Q U A S I S
T A T I S C H E M A G N E T F E L D E R * ( K O P P L U N G S I M
P E D A N Z ) 3 5 9 * 9.1.2* S C H I R M D AE M P F U N G FUER Q
U A S I S T A T I S C H E E L E K T R I S C H E F E L D E R ( T
R A N S T E R - * A D M I T T A N Z ) 361* 9.1.3* S C H I R M D AE M P
F U N G F UE R E L E K T R O M A G N E T I S C H E W E L L E N
( S C H I R M U N G S M A SS ) 3 6 2 * 9.2 S C H I R M D AE M P F
U N G V O N G E R AE T E G E H AE U S E N U N D S C H I R M R
AE U M E N * 3 6 3 * 9.3 I N T R I N S I C - S C H I R M D AE M P F
U N G V O N S C H I R M M A T E R I A L I E N * 3 7 0 *
9.3.1* KOAXIALE TEM - M E S S Z E L L E M I T D U R C H G E H E N
D E M I N N E N L E I T E R 3 7 0 * 9.3.2* K O A X I A L E T
E M - M E S S Z E L L E MIT G E S T O SS E N E M I N N E N L E I T
E R 3 7 1 * 9.3.3* D O P P E L TEM -MESSZELLE 372* 9.4 S C H I
R M D AE M P F U N G V O N D I C H T U N G E N * 3 7 4 * 9.5
R E F L E X I O N S D AE M P F U N G V O N A B S O R B E R W AE N D
E N * 3 7 6 * 9.6 F I L T E R D AE M P F U N G * 3 7 9 * 10 R
E P R AE S E N T A T I V E E M V - P R O B L E M E * 3 8 3 * 10.1 E
N T S T OE R U N G V O N M A G N E T S P U L E N * 3 8 3 *
10.1.1* B E S C H A L T U N G G L E I C H S T R O M B E T R I E B E N
E R M A G N E T S P U L E N 3 8 4 * 10.1.2* B E S C H A L T U N
G W E C H S E L S T R O M B E T R I E B E N E R M A G N E T S P U
L E N 3 8 5 * 10.2 F U N K E N T S T OE R U N G V O N U N I V
E R S A L M O T O R E N * 3 8 6 * 10.3 E L E K T R O S T A T I S C
H E E N T L A D U N G E N * 3 8 9 * 10.4 N E T Z R UE C K W I R
K U N G E N * 391* 10.5 B L I T Z S C H U T Z - B L I T Z S C H U
T Z Z O N E N - K O N Z E P T . . * 3 9 3 * 10.6 PULSE P O W E R
T E C H N I K - H O C H S P A N N U N G S L A B O R A T O R I E N
* 3 9 5 * 10.7 M E S S U N G E N M I T D I F F E R E N Z V E
R S T AE R K E R N * 4 0 3 * 10.8 EMV G E R E C H T E R S C H A
L T S C H R A N K B A U I N D E R A U T O M A T I S I E R U N G
S T E C H N I K 4 0 5 * 10.9 EMV IN D E R M E D I Z I N T E C H
N I K * 4 0 9 * 10. 10 W I R K U N G E L E K T R O M A G N E T
I S C H E R F E L D E R A U F O R G A N I S M E N * 4 1 2 *
X I I * I N H A L T S V E R Z E I C H N I S 10.11 A N A L Y S E
V O N E M V - P R O B L E M E N K O M P L E X E R S Y S T E
M E * . 418* 11 E M V G E R E C H T E R E N T W U R F E L E
K T R O N I S C H E R B A U G R U P P E N * 421* 11.1 L E I T E R
P L A T T E N W A H L * . 421* 11.2 I N T R A S Y S T E M - B E E I
N F L U S S U N G E N * . 4 2 6 * 11.2.1 S T OE R S I G N A L V E R
K O P P L U N G E N UE B E R G E M E I N S A M E I M P E D A N Z
E N . 4 2 6 * 11.2.1.1* A U S F UE H R U N G D E R S T R O M
V E R S O R G U N G S L E I T U N G E N . 426* 11.2.1.2* S T UE T Z U
N G D E R V E R S O R G U N G S S P A N N U N G . 427*
11.2.1.3* G E S T A L T U N G D E R S C H A L T U N G S M A S S E
. 430* 11.2.2 UE B E R S P R E C H E N Z W I S C H E N P A R A
L L E L E N L E I T E R B A H N E N * . 433* 11.2.2.1* N E B E N S
P R E C H E N U N D G E G E N S P R E C H E N 433* 1 1 . 2 . 2
. 2 * A L L G E M E I N E M A SS N A H M E N Z U R R E D U Z
I E R U N G DES* UE B E R S P R E C H E N S . 436* 11.2.3 S I G N A
L R E F L E X I O N E N A U F L A N G E N L E I T U N G E N *
438* 11.2.3.1* V E R M E I D U N G V O N R E F L E X I O N E N
D U R C H L E I T U N G S F UE H R U N G . 439* 11.2.3.2* A N P
A S S N E T Z W E R K E . 442* 11.3 I N T E R S Y S T E M - B E E I N
F L U S S U N G D U R C H S T OE R A B S T R A H L U N G * 444*
11.3.1 A B S T R A H L U N G V O N S I G N A L S T R O M S C H L E
I F E N * . 4 4 4 * 11.3.2 A B S T R A H L U N G S P R O B L E M E
B E I H O C H I N T E G R I E R T E N S C H A L T U N G E N
446* 11.3.3 M A SS N A H M E N A N S T OE R Q U E L L E N * .
449* 12 E M V - N O R M U N G * 4 5 3 * 12.1 E I N F UE H R U N G
I N DAS E M V - V O R S C H R I F T E N W E S E N * . 453* 12.2
E M V - N O R M U N G S G R E M I E N * . 4 5 4 * 12.3 R E C H T L
I C H E G R U N D L A G E N D E R EMV - N O R M U N G * .
458* 12.4 N A C H W E I S D E R K O N F O R M I T AE T M I T
D E M E M V - G E S E T Z * . 462* 12.5 B E N A N N T E S T E
L L E N * . 468* 12.6 E M V - N O R M E N * 4 7 0 * 12.6.1 E M
V - N O R M E N N A C H P R O B L E M K R E I S E N G E O R
D N E T . . * 471* 12.6.2 E M V - N O R M E N N A C H E U R O P
A N O R M E N G E O R D N E T * . 483* 12.7 W I C H T I G E A N
S C H R I F T E N * . 492* L I T E R A T U R * 4 9 5 * I N D E
X * 5 2 1 * |
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| author | Schwab, Adolf J. 1937- Kürner, Wolfgang 1972- |
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| author_facet | Schwab, Adolf J. 1937- Kürner, Wolfgang 1972- |
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| dewey-full | 621.31 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.31 |
| dewey-search | 621.31 |
| dewey-sort | 3621.31 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Maschinenbau / Maschinenwesen Elektrotechnik Elektrotechnik / Elektronik / Nachrichtentechnik |
| discipline_str_mv | Maschinenbau / Maschinenwesen Elektrotechnik Elektrotechnik / Elektronik / Nachrichtentechnik |
| edition | 5., aktualisierte und erg. Aufl. |
| format | Book |
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| illustrated | Illustrated |
| index_date | 2024-07-02T18:49:46Z |
| indexdate | 2024-07-20T09:24:59Z |
| institution | BVB |
| isbn | 9783540420040 3540420045 |
| language | German |
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| physical | XII, 530 S. Ill., graph. Darst. |
| publishDate | 2007 |
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| spelling | Schwab, Adolf J. 1937- Verfasser (DE-588)121634566 aut Elektromagnetische Verträglichkeit Adolf J. Schwab ; Wolfgang Kürner 5., aktualisierte und erg. Aufl. Berlin [u.a.] Springer 2007 XII, 530 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier CD-ROM (DE-588)4139307-7 gnd rswk-swf Elektromagnetische Verträglichkeit (DE-588)4138552-4 gnd rswk-swf 1\p (DE-588)1071861417 Konferenzschrift 2002 Düsseldorf gnd-content 2\p (DE-588)4123623-3 Lehrbuch gnd-content Elektromagnetische Verträglichkeit (DE-588)4138552-4 s CD-ROM (DE-588)4139307-7 s 3\p DE-604 Kürner, Wolfgang 1972- Verfasser (DE-588)133743489 aut text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2984768&prov=M&dok_var=1&dok_ext=htm Inhaltstext OEBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016083537&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 3\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Schwab, Adolf J. 1937- Kürner, Wolfgang 1972- Elektromagnetische Verträglichkeit CD-ROM (DE-588)4139307-7 gnd Elektromagnetische Verträglichkeit (DE-588)4138552-4 gnd |
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| title | Elektromagnetische Verträglichkeit |
| title_auth | Elektromagnetische Verträglichkeit |
| title_exact_search | Elektromagnetische Verträglichkeit |
| title_exact_search_txtP | Elektromagnetische Verträglichkeit |
| title_full | Elektromagnetische Verträglichkeit Adolf J. Schwab ; Wolfgang Kürner |
| title_fullStr | Elektromagnetische Verträglichkeit Adolf J. Schwab ; Wolfgang Kürner |
| title_full_unstemmed | Elektromagnetische Verträglichkeit Adolf J. Schwab ; Wolfgang Kürner |
| title_short | Elektromagnetische Verträglichkeit |
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