Gossen MetraWatt PROFITEST MBASE+ Serie Bedienungsanleitung Seite 88

Technische Kennwerte MPRO, MXTRA & SECULIFE IP
Funk-
Messgröße Anzeigebereich
tion
0 ... 99,9 V
U
L-PE
U
100 ... 600 V
N-PE
15,0 ... 99,9 Hz
f
100 ... 999 Hz
0 ... 99,9 V
U
U
3~
100 ... 600 V
0 ... 99,9 V
U
SONDE
100 ... 600 V
0 ... 99,9 V
U
L-N
100 ... 600 V
U 0 ... 70,0 V
IΔN
10 Ω ... 999 Ω
1,00 kΩ ... 6,51 kΩ
3 Ω ... 999 Ω
1 kΩ ... 2,17 kΩ
1Ω ... 651 Ω
R
E
0,3 Ω ... 99,9 Ω
100 Ω ... 217 Ω
0,2 Ω ... 9,9 Ω
I
10 Ω ... 130 Ω
ΔN
I (I = 6 mA) 1,8 ... 7,8 mA
ΔN
F
I
I (I = 10 mA) 3,0 ... 13,0 mA
F
ΔN
F
I (I = 30 mA) 9,0 ... 39,0 mA
ΔN
F
I (I = 100 mA) 30 ... 130 mA
ΔN
F
I (I = 300 mA) 90 ... 390 mA
ΔN
F
I (I = 500 mA) 150 ... 650 mA
ΔN
F
U / U = 25 V 0 ... 25,0 V
IΔ L
U / U = 50 V 0 ... 50,0 V
IΔ L
t (I · 1) 0 ... 1000 ms
ΔN
A
t (I · 2) 0 ... 1000 ms
ΔN
A
t (I · 5) 0 ... 40 ms
ΔN
A
Z ( ) 0 ... 999 mΩ
L-PE
1,00 ... 9,99 Ω
Z
L-N
0 ... 999 mΩ
Z
1,00 ... 9,99 Ω
L-PE
+ DC
10,0 ... 29,9 Ω
0 ... 9,9 A
Z
I (Z ,
L-PE
K L-PE
10 ... 999 A
1,00 ... 9,99 kA
Z + DC)
Z
L-PE
L-N 10,0 ... 50,0 kA
0,6 ... 99,9 Ω
Z (15 mA)
100 ... 999 Ω
L-PE
0,10 ... 9,99 A
I (15 mA) 10,0 ... 99,9 A
K
100 ... 999 A
0 ... 999 mΩ
1,00 ... 9,99 Ω
R (ohne Sonde)
E.sl
10,0 ... 99,9 Ω
100 ... 999 Ω
R (mit Sonde)
E
1 kΩ ... 9,99 kΩ
R
0,5 ... 99,9 Ω
E (15 mA)
R
100 ... 999 Ω
E
(ohne/mit Sonde)
R (ohne Sonde)
E.sl
0 ... 999 mΩ
+ DC
1,00 ... 9,99 Ω
R (mit Sonde)
10,0 ... 29,9 Ω
E.sl
+ DC
U 0 ... 253 V
E
0 ... 999 mΩ
R
1,00 ... 9,99 Ω
E.sel
10,0 ... 99,9 Ω
R
(nur mit Sonde)
E
100 ... 999 Ω
Sel
0 ... 999 mΩ
R
Zange
1,00 ... 9,99 Ω
E.sel
+ DC
10,0 ... 99,9 Ω
(nur mit Sonde)
100 ... 999 Ω
10 kΩ ... 199 kΩ
200 kΩ ... 999 kΩ
Z
ST
1,00 MΩ ... 9,99 MΩ
10,0 MΩ ... 30,0 MΩ
EXTRA
20 ... 648 kΩ
IMD-Test
2,51 MΩ
88
Eingangs-
Auf-
impedanz/ Messbereich
lösung
Prüfstrom
0,1 V
0,3 ... 600 V
1 V
0,1 Hz
DC 15,4 ... 420 Hz
1 Hz
0,1 V
5 MΩ
0,3 ... 600 V
1 V
0,1 V
1,0 ... 600 V
1 V
0,1 V
1,0 ... 600 V
1 V
0,1 V 0,3 · I 5 ... 70 V
ΔN
1 Ω
I = 10 mA · 1,05
ΔN
0,01 kΩ
1 Ω
I = 30 mA · 1,05
ΔN
0,01 kΩ
Rechenwert
1Ω I =100 mA · 1,05
ΔN
0,1 Ω
R = U
E
I =300 mA · 1,05
ΔN
1 Ω
0,1 Ω
I =500 mA · 1,05
ΔN
1 Ω
1,8 ... 7,8 mA 1,8 ... 7,8 mA
0,1 mA 3,0 ... 13,0 mA 3,0 ... 13,0 mA
9,0 ... 39,0 mA 9,0 ... 39,0 mA
1 mA 30 ... 130 mA 30 ... 130 mA
1 mA 90 ... 390 mA 90 ... 390 mA
1 mA 150 ... 650 mA 150 ... 650 mA
0 ... 25,0 V
0,1 V wie I
Δ
0 ... 50,0 V
1 ms 6 ... 500 mA 0 ... 1000 ms
1 ms 2 · 6 ... 2 · 500 mA 0 ... 1000 ms
1 ms 5 · 6 ... 5 · 300 mA 0 ... 40 ms
0,10 ... 0,49 Ω
0,50 ... 0,99 Ω
3,7 ... 4,7 A AC
1 mΩ
1,00 ... 9,99 Ω
0,01 Ω
3,7 ... 4,7 A AC
0,1 Ω 0,25 ... 0,99 Ω
0,5/1,25 A DC
1,00 ... 9,99 Ω
0,1 A 120 (108 ... 132) V
1 A 230 (196 ... 253) V
10 A 400 (340 ... 440) V
100 A 500 (450 ... 550) V
0,1 Ω 10,0 ... 99,9 Ω
1 Ω 100 ... 999 Ω
100 mA ... 12 A
0,01 A 15 mA AC
(U
N
0,1 A
200 mA ... 25 A
14)
1 A
(U
N
0,10 Ω ... 0,49 Ω
1 mΩ 3,7 ... 4,7 A AC
0,50 Ω ... 0,99 Ω
0,01 Ω
3,7 ... 4,7 A AC
1,0 Ω ...9,99 Ω
0,1 Ω
400 mA AC
10 Ω ...99,9 Ω
1 Ω
40 mA AC
100 Ω ...999 Ω
0,01 kΩ 4 mA AC
1 kΩ ...9,99 kΩ
0,1 Ω 10 Ω ...99,9 Ω
15 mA AC
1 Ω 100 Ω ...999 Ω
1 mΩ
0,25 ... 0,99 Ω
3,7 ... 4,7 A AC
0,01 Ω
1,00 ... 9,99 Ω
0,5/1,25 A DC
0,1 Ω
= 0,10 ... 9,99 Ω
1 V 3,7 ... 4,7 A AC R
E
1 mΩ 2,1 A AC
0,01 Ω
2,1 A AC
0,25 ... 300 Ω
0,1 Ω
400 mA AC
1 Ω
40 mA AC
1 mΩ
0,01 Ω 0,25 ... 300 Ω
3,7 ... 4,7 A AC
0,1 Ω
0,5/1,25 A DC R
E.ges
1 Ω
10 kΩ ... 199 kΩ
1 kΩ
1 kΩ
200 kΩ ... 999 kΩ
2,3 mA bei 230 V
0,01 MΩ
1,00 MΩ ... 9,99 MΩ
0,1 MΩ
10,0 MΩ ... 30,0 MΩ
20 kΩ ... 199 kΩ
1 kΩ IT-Netzspannung
200 kΩ ... 648 kΩ
0,01 MΩ U.it = 90 ... 550 V
2,51 MΩ
Betriebsmess-
Nennwerte
unsicherheit
±(2% v.M.+5D)
1)
±(2% v.M.+1D)
U =
N
120 V
±(0,2% v.M.+1D) ±(0,1% v.M.+1D)
230 V
±(3% v.M.+5D)
400 V
±(3% v.M.+1D)
500 V
±(2% v.M.+5D)
2
f = 16 / /50/ ±(2% v.M.+1D)
N 3
60/200/400 Hz
±(3% v.M.+5D)
1)
±(3% v.M.+1D)
+10% v.M.+1D
U =
N
120 V
230 V
aus
2)
400 V
/ I
ΔN
IΔN
f = 50/60 Hz
N
U = 25/50 V
L
I =
ΔN
6 mA
±(5% v.M.+1D)
10 mA
30 mA
100 mA
300 mA
2)
500 mA
+10% v.M.+1D
±4 ms
±(10% v.M.+20D)
U = 120/230 V
N
1) ±(10% v.M.+20D)
400/500 V
2 8) ±(5% v.M.+3D)
f =16 / /50/60 Hz
N 3
±(18% v.M.+30D)
U = 120/230 V
N
±(10% v.M.+3D)
f = 50/60 Hz
N
Rechenwert aus Z
±(10% v.M.+10D)
±(8% v.M.+2D)
U = 120/230 V
N
2 8)
f = 16 / /50/
N 3
= 120 V) Rechenwert aus
60 Hz
I = U
K
= 230 V)
±(10% v.M.+20D)
±(10% v.M.+20D)
U wie Funktion U
N ±(5% v.M.+3D)
1)
±(10% v.M.+3D)
f = 50/60 Hz
±(10% v.M.+3D)
N
±(10% v.M.+3D)
±(10% v.M.+10D)
U = 120/230 V
N
±(8% v.M.+2D)
f = 50/60 Hz
N
±(18% v.M.+30D)
U = 120/230 V
N
±(10% v.M.+3D)
f = 50/60 Hz
N
U = 120/230 V
N
Rechenwert U
f = 50/60 Hz
N
U = 120/230 V
4) ±(20% v.M.+20 D) ±(15% v.M.+20 D)
N
f = 50/60 Hz
N
U = 120/230 V
±(22% v.M.+20 D) ±(15% v.M.+20 D)
N
< 10 Ω 4)
f = 50/60 Hz
N
±(20% v.M.+2D) ±(10% v.M.+3D)
U = U
0 L-N ±(10% v.M.+2D) ±(5% v.M.+3D)
IT-Netz-
Nennspanungen
±7%
UN.it =
±12%
120/230/400/
±3%
500 V
f = 50/60 Hz
N
Eigen-
Stecker-
2-Pol-
unsicherheit
einsatz
Adapter Adapter
1)
±(1% v.M.+5D)
±(1% v.M.+1D)
● ●
±(2% v.M.+5D)
±(2% v.M.+1D)
±(1% v.M.+5D)
±(1% v.M.+1D)
±(2% v.M.+5D)
●
±(2% v.M.+1D)
+1% v.M.–1D ...
+9% v.M.+1D
● ●
±(3,5%
v.M.+2D)
+1% v.M.–1D ...
+9% v.M.+1 D
±3 ms
±(5% v.M.+20D)
±(4% v.M.+20D)
±(3% v.M.+3D)
±(6% v.M.+50D)
±(4% v.M.+3D)
●
●
L-PE
Z
L-PE
±(2% v.M.+2D)
±(1% v.M.+1D)
/Z (15 mA)
N L-PE
±(5% v.M.+20D)
±(4% v.M.+20D)
±(3% v.M.+3D)
±(3% v.M.+3D)
±(3% v.M.+3D)
±(3% v.M.+3D)
±(2% v.M.+2D)
● ●
±(1% v.M.+1D)
±(6% v.M.+50D)
±(4% v.M.+3D)
= U · R /R
E N E E.sl
● ●
±5%
●
±10%
±2%
GMC-I Messtechnik GmbH
Anschlüsse
Zangen
3-Pol-
Sonde
WZ12C Z3512A MFLEX
P300
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wahl-
weise
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