Temperature coefficient (α,C,G,R,T)
α←C,T
C₀ =
QF
RF
YF
ZF
EF
PF
TF
GF
MF
kF
F
mF
μF
nF
cm
pF
fF
aF
zF
yF
rF
qF
Capacitance
☺
C₁ =
QF
RF
YF
ZF
EF
PF
TF
GF
MF
kF
F
mF
μF
nF
cm
pF
fF
aF
zF
yF
rF
qF
Capacitance
☺
←α,C,T
T₀ =
GJ
Q℃
QK
MJ
R℃
RK
kJ
Y℃
YK
J
Z℃
ZK
mJ
E℃
EK
μJ
P℃
PK
nJ
T℃
TK
pJ
G℃
GK
fJ
M℃
MK
aJ
k℃
kK
zJ
℉
℃
K
yJ
mK
rJ
μK
qJ
nK
pK
fK
aK
zK
yK
rK
qK
Temperature
☺
T₁ =
GJ
Q℃
QK
MJ
R℃
RK
kJ
Y℃
YK
J
Z℃
ZK
mJ
E℃
EK
μJ
P℃
PK
nJ
T℃
TK
pJ
G℃
GK
fJ
M℃
MK
aJ
k℃
kK
zJ
℉
℃
K
yJ
mK
rJ
μK
qJ
nK
pK
fK
aK
zK
yK
rK
qK
Temperature
☺
←α,C,T
exact
6 digits
5 digits
4 digits
3 digits
2 digits
integer
☺
α =
Temperature coefficient
☺
α
=
C
1
C
0
−
1
T
1
−
T
0
C←α,C,T
α =
A0? EIA (-900 n)
A1? EIA (-9 μ)
A2? EIA (-90 μ)
A3? EIA (-900 μ)
A4? EIA (+900 n)
A6? EIA (+9 μ)
A7? EIA (+90 μ)
A8? EIA (+900 μ)
B0? EIA (-300 n)
B1? EIA (-3 μ)
B2? EIA (-30 μ)
B3? EIA (-300 μ)
B4? EIA (+300 n)
B6? EIA (+3 μ)
B7? EIA (+30 μ)
B8? EIA (+300 μ)
bárium-stroncium titanát max (-1 m)
bárium-stroncium titanát min (-10 m)
báriumtitanát (-50 μ)
C?? EIA (0 μ)
csillám (80 μ)
csillám max (20 μ)
csillám min (6 μ)
izokond N47 (-47 μ)
izokond P33 (33 μ)
L0? EIA (-800 n)
L1? EIA (-8 μ)
L2? EIA (-80 μ)
L3? EIA (-800 μ)
L4? EIA (+800 n)
L6? EIA (+8 μ)
L7? EIA (+80 μ)
L8? EIA (+800 μ)
M0? EIA (-1 μ)
M1? EIA (-10 μ)
M2? EIA (-100 μ)
M3? EIA (-1 m)
M4? EIA (+1 μ)
M6? EIA (+10 μ)
M7? EIA (+100 μ)
M8? EIA (+1 m)
magnézium szilikát (100 μ)
magnéziumtitanát (40 μ)
magnéziumtitanát (-80 μ)
minidelt min (120 μ)
minidelt max (160 μ)
N 47 szürke:barna/kék (-47 μ)
N 150 szürke:narancs (-150 μ)
N 330 szürke:zöld (-330 μ)
N 470 szürke:kék (-470 μ)
N 750 szürke:ibolya (-750 μ)
N1500 szürke:narancs/narancs (-1,5 m)
N4700 szürke:kék/narancs (-4,7 m)
NP0 szürke:fekete (0)
P 100 szürke:vörös/ibolya (100 μ)
P 33 szürke:szürke (33 μ)
P0? EIA (-1,5 μ)
P1? EIA (-15 μ)
P2? EIA (-150 μ)
P3? EIA (-1,5 m)
P4? EIA (+1,5 μ)
P6? EIA (+15 μ)
P7? EIA (+150 μ)
P8? EIA (+1,5 m)
poliészter PE (500 μ)
polipropilén PP (-200 μ)
polisztirol PS stiroflex (-150 μ)
porcelán (550 μ)
R0? EIA (-2,2 μ)
R1? EIA (-22 μ)
R2? EIA (-220 μ)
R3? EIA (-2,2 m)
R4? EIA (+2,2 μ)
R6? EIA (+22 μ)
R7? EIA (+220 μ)
R8? EIA (+2,2 m)
rutikond N750 max (-650 μ)
rutikond N750 min (-850 μ)
S0? EIA (-3,3 μ)
S1? EIA (-33 μ)
S2? EIA (-330 μ)
S3? EIA (-3,3 m)
S4? EIA (+3,3 μ)
S6? EIA (+33 μ)
S7? EIA (+330 μ)
S8? EIA (+3,3 m)
T0? EIA (-4,7 μ)
T1? EIA (-47 μ)
T2? EIA (-470 μ)
T3? EIA (-4,7 m)
T4? EIA (+4,7 μ)
T6? EIA (+47 μ)
T7? EIA (+470 μ)
T8? EIA (+4,7 m)
TiO₂ max (200 μ)
TiO₂ min (-1 m)
titándioxid max (-600 μ)
titándioxid min (-800 μ)
U0? EIA (-7,5 μ)
U1? EIA (-75 μ)
U2? EIA (-750 μ)
U3? EIA (-7,5 m)
U4? EIA (+7,5 μ)
U6? EIA (+75 μ)
U7? EIA (+750 μ)
U8? EIA (+7,5 m)
V0? EIA (-5,6 μ)
V1? EIA (-56 μ)
V2? EIA (-560 μ)
V3? EIA (-5,6 m)
V4? EIA (+5,6 μ)
V6? EIA (+56 μ)
V7? EIA (+560 μ)
V8? EIA (+5,6 m)
1/K
Temperature coefficient
☺
←C,T
Q1/℉
Q1/K
R1/℉
R1/K
Y1/℉
Y1/K
Z1/℉
Z1/K
E1/℉
E1/K
P1/℉
P1/K
T1/℉
T1/K
G1/℉
G1/K
M1/℉
M1/K
k1/℉
k1/K
1/℉
1/K,1/℃
%/K
m1/℉
m1/K,‰/K
μ1/℉,ppm/℉
μ1/K,ppm/K,mired
n1/℉
n1/K,ppb/K
p1/℉
p1/K,ppt/K
f1/℉
f1/K,ppq/K
a1/℉
a1/K
z1/℉
z1/K
y1/℉
y1/K
r1/℉
r1/K
q1/℉
q1/K
C₀ =
QF
RF
YF
ZF
EF
PF
TF
GF
MF
kF
F
mF
μF
nF
cm
pF
fF
aF
zF
yF
rF
qF
Capacitance
☺
T₀ =
GJ
Q℃
QK
MJ
R℃
RK
kJ
Y℃
YK
J
Z℃
ZK
mJ
E℃
EK
μJ
P℃
PK
nJ
T℃
TK
pJ
G℃
GK
fJ
M℃
MK
aJ
k℃
kK
zJ
℉
℃
K
yJ
mK
rJ
μK
qJ
nK
pK
fK
aK
zK
yK
rK
qK
Temperature
☺
T₁ =
GJ
Q℃
QK
MJ
R℃
RK
kJ
Y℃
YK
J
Z℃
ZK
mJ
E℃
EK
μJ
P℃
PK
nJ
T℃
TK
pJ
G℃
GK
fJ
M℃
MK
aJ
k℃
kK
zJ
℉
℃
K
yJ
mK
rJ
μK
qJ
nK
pK
fK
aK
zK
yK
rK
qK
Temperature
☺
←α,C,T
exact
E192 - 0.5 %
E96 - 1 %
E48 - 2 %
E24 - 5 %
E12 - 10 %
E6 - 20 %
6 digits
5 digits
4 digits
3 digits
2 digits
integer
☺
C₁ =
Capacitance
☺
C
1
=
C
0
⋅
(
1
+
α
⋅
(
T
1
−
T
0
)
)
T←α,C,T
α =
A0? EIA (-900 n)
A1? EIA (-9 μ)
A2? EIA (-90 μ)
A3? EIA (-900 μ)
A4? EIA (+900 n)
A6? EIA (+9 μ)
A7? EIA (+90 μ)
A8? EIA (+900 μ)
B0? EIA (-300 n)
B1? EIA (-3 μ)
B2? EIA (-30 μ)
B3? EIA (-300 μ)
B4? EIA (+300 n)
B6? EIA (+3 μ)
B7? EIA (+30 μ)
B8? EIA (+300 μ)
bárium-stroncium titanát max (-1 m)
bárium-stroncium titanát min (-10 m)
báriumtitanát (-50 μ)
C?? EIA (0 μ)
csillám (80 μ)
csillám max (20 μ)
csillám min (6 μ)
izokond N47 (-47 μ)
izokond P33 (33 μ)
L0? EIA (-800 n)
L1? EIA (-8 μ)
L2? EIA (-80 μ)
L3? EIA (-800 μ)
L4? EIA (+800 n)
L6? EIA (+8 μ)
L7? EIA (+80 μ)
L8? EIA (+800 μ)
M0? EIA (-1 μ)
M1? EIA (-10 μ)
M2? EIA (-100 μ)
M3? EIA (-1 m)
M4? EIA (+1 μ)
M6? EIA (+10 μ)
M7? EIA (+100 μ)
M8? EIA (+1 m)
magnézium szilikát (100 μ)
magnéziumtitanát (40 μ)
magnéziumtitanát (-80 μ)
minidelt min (120 μ)
minidelt max (160 μ)
N 47 szürke:barna/kék (-47 μ)
N 150 szürke:narancs (-150 μ)
N 330 szürke:zöld (-330 μ)
N 470 szürke:kék (-470 μ)
N 750 szürke:ibolya (-750 μ)
N1500 szürke:narancs/narancs (-1,5 m)
N4700 szürke:kék/narancs (-4,7 m)
NP0 szürke:fekete (0)
P 100 szürke:vörös/ibolya (100 μ)
P 33 szürke:szürke (33 μ)
P0? EIA (-1,5 μ)
P1? EIA (-15 μ)
P2? EIA (-150 μ)
P3? EIA (-1,5 m)
P4? EIA (+1,5 μ)
P6? EIA (+15 μ)
P7? EIA (+150 μ)
P8? EIA (+1,5 m)
poliészter PE (500 μ)
polipropilén PP (-200 μ)
polisztirol PS stiroflex (-150 μ)
porcelán (550 μ)
R0? EIA (-2,2 μ)
R1? EIA (-22 μ)
R2? EIA (-220 μ)
R3? EIA (-2,2 m)
R4? EIA (+2,2 μ)
R6? EIA (+22 μ)
R7? EIA (+220 μ)
R8? EIA (+2,2 m)
rutikond N750 max (-650 μ)
rutikond N750 min (-850 μ)
S0? EIA (-3,3 μ)
S1? EIA (-33 μ)
S2? EIA (-330 μ)
S3? EIA (-3,3 m)
S4? EIA (+3,3 μ)
S6? EIA (+33 μ)
S7? EIA (+330 μ)
S8? EIA (+3,3 m)
T0? EIA (-4,7 μ)
T1? EIA (-47 μ)
T2? EIA (-470 μ)
T3? EIA (-4,7 m)
T4? EIA (+4,7 μ)
T6? EIA (+47 μ)
T7? EIA (+470 μ)
T8? EIA (+4,7 m)
TiO₂ max (200 μ)
TiO₂ min (-1 m)
titándioxid max (-600 μ)
titándioxid min (-800 μ)
U0? EIA (-7,5 μ)
U1? EIA (-75 μ)
U2? EIA (-750 μ)
U3? EIA (-7,5 m)
U4? EIA (+7,5 μ)
U6? EIA (+75 μ)
U7? EIA (+750 μ)
U8? EIA (+7,5 m)
V0? EIA (-5,6 μ)
V1? EIA (-56 μ)
V2? EIA (-560 μ)
V3? EIA (-5,6 m)
V4? EIA (+5,6 μ)
V6? EIA (+56 μ)
V7? EIA (+560 μ)
V8? EIA (+5,6 m)
1/K
Temperature coefficient
☺
←C,T
Q1/℉
Q1/K
R1/℉
R1/K
Y1/℉
Y1/K
Z1/℉
Z1/K
E1/℉
E1/K
P1/℉
P1/K
T1/℉
T1/K
G1/℉
G1/K
M1/℉
M1/K
k1/℉
k1/K
1/℉
1/K,1/℃
%/K
m1/℉
m1/K,‰/K
μ1/℉,ppm/℉
μ1/K,ppm/K,mired
n1/℉
n1/K,ppb/K
p1/℉
p1/K,ppt/K
f1/℉
f1/K,ppq/K
a1/℉
a1/K
z1/℉
z1/K
y1/℉
y1/K
r1/℉
r1/K
q1/℉
q1/K
C₀ =
QF
RF
YF
ZF
EF
PF
TF
GF
MF
kF
F
mF
μF
nF
cm
pF
fF
aF
zF
yF
rF
qF
Capacitance
☺
C₁ =
QF
RF
YF
ZF
EF
PF
TF
GF
MF
kF
F
mF
μF
nF
cm
pF
fF
aF
zF
yF
rF
qF
Capacitance
☺
←α,C,T
T₀ =
GJ
Q℃
QK
MJ
R℃
RK
kJ
Y℃
YK
J
Z℃
ZK
mJ
E℃
EK
μJ
P℃
PK
nJ
T℃
TK
pJ
G℃
GK
fJ
M℃
MK
aJ
k℃
kK
zJ
℉
℃
K
yJ
mK
rJ
μK
qJ
nK
pK
fK
aK
zK
yK
rK
qK
Temperature
☺
engineering
practical
☺
exact
6 digits
5 digits
4 digits
3 digits
2 digits
integer
☺
T₁ =
Temperature
☺
T
1
=
T
0
+
C
1
C
0
−
1
α
α←G,R,T
G₀ =
QS
RS
YS
ZS
ES
PS
TS
GS
MS
kS
S
mS
μS
nS
pS
fS
aS
zS
yS
rS
qS
Conductance
☺
R₀ =
QΩ
RΩ
YΩ
ZΩ
EΩ
PΩ
TΩ
GΩ
MΩ
kΩ
Ω
mΩ
μΩ
nΩ
pΩ
fΩ
aΩ
zΩ
yΩ
rΩ
qΩ
Resistance
☺
G₁ =
QS
RS
YS
ZS
ES
PS
TS
GS
MS
kS
S
mS
μS
nS
pS
fS
aS
zS
yS
rS
qS
Conductance
☺
←α,G,R,T
R₁ =
QΩ
RΩ
YΩ
ZΩ
EΩ
PΩ
TΩ
GΩ
MΩ
kΩ
Ω
mΩ
μΩ
nΩ
pΩ
fΩ
aΩ
zΩ
yΩ
rΩ
qΩ
Resistance
☺
←α,G,R,T
T₀ =
GJ
Q℃
QK
MJ
R℃
RK
kJ
Y℃
YK
J
Z℃
ZK
mJ
E℃
EK
μJ
P℃
PK
nJ
T℃
TK
pJ
G℃
GK
fJ
M℃
MK
aJ
k℃
kK
zJ
℉
℃
K
yJ
mK
rJ
μK
qJ
nK
pK
fK
aK
zK
yK
rK
qK
Temperature
☺
T₁ =
GJ
Q℃
QK
MJ
R℃
RK
kJ
Y℃
YK
J
Z℃
ZK
mJ
E℃
EK
μJ
P℃
PK
nJ
T℃
TK
pJ
G℃
GK
fJ
M℃
MK
aJ
k℃
kK
zJ
℉
℃
K
yJ
mK
rJ
μK
qJ
nK
pK
fK
aK
zK
yK
rK
qK
Temperature
☺
←α,G,R,T
exact
6 digits
5 digits
4 digits
3 digits
2 digits
integer
☺
α =
Temperature coefficient
☺
α
=
R
1
R
0
−
1
T
1
−
T
0
G,R←α,G,R,T
α =
acél max {4fvt} (5 m)
acél min {4fvt} (4,2 m)
alumínium, Al {4fvt} (4 m)
bronz {4fvt} (5 μ)
cink, Zn {4fvt} (3,7 m)
ezüst, Ag (3,8 m)
ezüst, Ag {4fvt} (3,61 m)
germánium, Ge (-50 m)
grafit, C (-200 μ)
higany, Hg {4fvt} (980 μ)
kantál max {4fvt} (90 μ)
kantál min {4fvt} (60 μ)
konstantán {4fvt} (170 μ)
konstantán (8 μ)
krómnikkel {4fvt} (250 μ)
manganin (2 μ)
manganin max {4fvt} (20 μ)
manganin min {4fvt} (10 μ)
ólom, Pb {4fvt} (3,87 m)
ón, Sn {4fvt} (4,2 m)
platina, Pt (3,85 m)
réz, Cu {4fvt} (4,3 m)
réz, sárgaréz {4fvt} (1,5 m)
réz vezeték wire, Cu {4fvt} (3,92 m)
szén, C max {4fvt} (-900 μ)
szén, C min {4fvt} (-300 μ)
szilícium, Si (-70 m)
vas, Fe (5,6 m)
volfrám, W max {4fvt} (4,5 m)
volfrám, W min {4fvt} (4,3 m)
1/K
Temperature coefficient
☺
←G,R,T
Q1/℉
Q1/K
R1/℉
R1/K
Y1/℉
Y1/K
Z1/℉
Z1/K
E1/℉
E1/K
P1/℉
P1/K
T1/℉
T1/K
G1/℉
G1/K
M1/℉
M1/K
k1/℉
k1/K
1/℉
1/K,1/℃
%/K
m1/℉
m1/K,‰/K
μ1/℉,ppm/℉
μ1/K,ppm/K,mired
n1/℉
n1/K,ppb/K
p1/℉
p1/K,ppt/K
f1/℉
f1/K,ppq/K
a1/℉
a1/K
z1/℉
z1/K
y1/℉
y1/K
r1/℉
r1/K
q1/℉
q1/K
G₀ =
QS
RS
YS
ZS
ES
PS
TS
GS
MS
kS
S
mS
μS
nS
pS
fS
aS
zS
yS
rS
qS
Conductance
☺
R₀ =
QΩ
RΩ
YΩ
ZΩ
EΩ
PΩ
TΩ
GΩ
MΩ
kΩ
Ω
mΩ
μΩ
nΩ
pΩ
fΩ
aΩ
zΩ
yΩ
rΩ
qΩ
Resistance
☺
T₀ =
GJ
Q℃
QK
MJ
R℃
RK
kJ
Y℃
YK
J
Z℃
ZK
mJ
E℃
EK
μJ
P℃
PK
nJ
T℃
TK
pJ
G℃
GK
fJ
M℃
MK
aJ
k℃
kK
zJ
℉
℃
K
yJ
mK
rJ
μK
qJ
nK
pK
fK
aK
zK
yK
rK
qK
Temperature
☺
T₁ =
GJ
Q℃
QK
MJ
R℃
RK
kJ
Y℃
YK
J
Z℃
ZK
mJ
E℃
EK
μJ
P℃
PK
nJ
T℃
TK
pJ
G℃
GK
fJ
M℃
MK
aJ
k℃
kK
zJ
℉
℃
K
yJ
mK
rJ
μK
qJ
nK
pK
fK
aK
zK
yK
rK
qK
Temperature
☺
←α,G,R,T
exact
E192 - 0.5 %
E96 - 1 %
E48 - 2 %
E24 - 5 %
E12 - 10 %
E6 - 20 %
6 digits
5 digits
4 digits
3 digits
2 digits
integer
☺
G₁ =
Conductance
☺
G
1
=
1
R
0
⋅
(
1
+
α
⋅
(
T
1
−
T
0
)
)
R₁ =
Resistance
☺
R
1
=
R
0
⋅
(
1
+
α
⋅
(
T
1
−
T
0
)
)
T←α,G,R,T
α =
acél max {4fvt} (5 m)
acél min {4fvt} (4,2 m)
alumínium, Al {4fvt} (4 m)
bronz {4fvt} (5 μ)
cink, Zn {4fvt} (3,7 m)
ezüst, Ag (3,8 m)
ezüst, Ag {4fvt} (3,61 m)
germánium, Ge (-50 m)
grafit, C (-200 μ)
higany, Hg {4fvt} (980 μ)
kantál max {4fvt} (90 μ)
kantál min {4fvt} (60 μ)
konstantán {4fvt} (170 μ)
konstantán (8 μ)
krómnikkel {4fvt} (250 μ)
manganin (2 μ)
manganin max {4fvt} (20 μ)
manganin min {4fvt} (10 μ)
ólom, Pb {4fvt} (3,87 m)
ón, Sn {4fvt} (4,2 m)
platina, Pt (3,85 m)
réz, Cu {4fvt} (4,3 m)
réz, sárgaréz {4fvt} (1,5 m)
réz vezeték wire, Cu {4fvt} (3,92 m)
szén, C max {4fvt} (-900 μ)
szén, C min {4fvt} (-300 μ)
szilícium, Si (-70 m)
vas, Fe (5,6 m)
volfrám, W max {4fvt} (4,5 m)
volfrám, W min {4fvt} (4,3 m)
1/K
Temperature coefficient
☺
←G,R,T
Q1/℉
Q1/K
R1/℉
R1/K
Y1/℉
Y1/K
Z1/℉
Z1/K
E1/℉
E1/K
P1/℉
P1/K
T1/℉
T1/K
G1/℉
G1/K
M1/℉
M1/K
k1/℉
k1/K
1/℉
1/K,1/℃
%/K
m1/℉
m1/K,‰/K
μ1/℉,ppm/℉
μ1/K,ppm/K,mired
n1/℉
n1/K,ppb/K
p1/℉
p1/K,ppt/K
f1/℉
f1/K,ppq/K
a1/℉
a1/K
z1/℉
z1/K
y1/℉
y1/K
r1/℉
r1/K
q1/℉
q1/K
G₀ =
QS
RS
YS
ZS
ES
PS
TS
GS
MS
kS
S
mS
μS
nS
pS
fS
aS
zS
yS
rS
qS
Conductance
☺
R₀ =
QΩ
RΩ
YΩ
ZΩ
EΩ
PΩ
TΩ
GΩ
MΩ
kΩ
Ω
mΩ
μΩ
nΩ
pΩ
fΩ
aΩ
zΩ
yΩ
rΩ
qΩ
Resistance
☺
G₁ =
QS
RS
YS
ZS
ES
PS
TS
GS
MS
kS
S
mS
μS
nS
pS
fS
aS
zS
yS
rS
qS
Conductance
☺
←α,G,R,T
R₁ =
QΩ
RΩ
YΩ
ZΩ
EΩ
PΩ
TΩ
GΩ
MΩ
kΩ
Ω
mΩ
μΩ
nΩ
pΩ
fΩ
aΩ
zΩ
yΩ
rΩ
qΩ
Resistance
☺
←α,G,R,T
T₀ =
GJ
Q℃
QK
MJ
R℃
RK
kJ
Y℃
YK
J
Z℃
ZK
mJ
E℃
EK
μJ
P℃
PK
nJ
T℃
TK
pJ
G℃
GK
fJ
M℃
MK
aJ
k℃
kK
zJ
℉
℃
K
yJ
mK
rJ
μK
qJ
nK
pK
fK
aK
zK
yK
rK
qK
Temperature
☺
engineering
practical
☺
exact
6 digits
5 digits
4 digits
3 digits
2 digits
integer
☺
T₁ =
Temperature
☺
T
1
=
T
0
+
R
1
R
0
−
1
α
⌂ Index
Help ☺
Verzió: 2025-03-25 (
2012-03-19
..
2025-03-10 18:00:01
UTC )
gg630504
Gábor, operator of the HG9IEG amateur radio station.