Product successfully added to your shopping cart
VAL-MS 1000DC-PV/2+V-FM
2800627
PHOENIX_CONTACT
1
Surge arrester for 2-pos. isolated 1000 V DC voltage systems, for DIN rail mounting, 3-pos. base element with remote indication contact, three plug-in temperature-monitored protective elements, status message on each plug.
Trabtech (TT)
* Brand new product in its original packaging covered by the warranties and certifications provided by PHOENIX_CONTACT
Thank you for your interest in our products; we hope the delivery time indicated is to your convenience.
While the order is being processed you can select the type of shipment that best suits your needs: 24-hour air express, standard 48-72 hour land, etc.
Height | 99 mm |
---|---|
Width | 53.4 mm |
Depth | 65.5 mm |
Horizontal pitch | 3 Div. |
Degree of protection | IP20 (only when all terminal points are used) |
---|---|
Ambient temperature (operation) | -40 °C ... 80 °C |
Ambient temperature (storage/transport) | -40 °C ... 80 °C |
Altitude | ≤ 2000 m (amsl (above mean sea level)) |
Permissible humidity (operation) | 5 % ... 95 % |
Shock (operation) | 60g (Half sine/11 ms/3x XYZ) |
Vibration (operation) | 7.5g (5-500 Hz/2.5 h/XYZ) |
Standards/specifications | EN 50539-11 2013 |
---|---|
IEC test classification | PV T2 |
PV T2 | |
Number of ports | One |
SPD failure behavior | OCM (Open-circuit mode) |
Connection configuration | Y configuration |
SPD design | Voltage-limiting type |
Installation location | Inside |
Accessibility | Accessible |
Installation location of the disconnect device | Internal |
Mounting type | DIN rail: 35 mm |
Color | jet black RAL 9005 |
Housing material | PA 6.6-FR |
PBT-FR | |
Pollution degree | 2 |
Distance between live and grounded parts | 8 mm |
Flammability rating according to UL 94 | V-0 |
Type | DIN rail module, two-section, divisible |
Surge protection fault message | Optical, remote indicator contact |
Note | The device is intended for touch proof installation in a housing. Ensure that there is a gap of at least 8 mm between the active and grounded parts in the connection area. |
---|
Maximum continuous operating voltage UCPV | 1170 V DC |
---|---|
Open circuit voltage UOCSTC | ≤ 970 V DC |
Short-circuit current rating ISCPV | 1000 A |
Continuous operating current ICPV | < 20 µA |
Rated load current IL | 80 A |
Residual current IPE | ≤ 20 µA DC |
≤ 250 µA AC | |
Standby power consumption PC | ≤ 25 mVA |
Nominal discharge current (8/20) µs | 15 kA |
Nominal discharge current In(8/20) µs (L+) - (L-) | 15 kA |
Nominal discharge current In(8/20) µs (L+) - PE | 15 kA |
Nominal discharge current In(8/20) µs (L-) - PE | 15 kA |
Maximum discharge current Imax(8/20) µs | 40 kA |
Maximum discharge current Imax(8/20) µs (L+) - (L-) | 40 kA |
Maximum discharge current Imax(8/20) µs (L+) - PE | 40 kA |
Maximum discharge current Imax(8/20) µs (L-) - PE | 40 kA |
Total discharge current ITotal(8/20) µs | 40 kA |
Voltage protection level Up(L+) - (L-) | ≤ 3.7 kV |
Voltage protection level Up(L+) - PE | ≤ 3.7 kV |
Voltage protection level Up(L-) - PE | ≤ 3.7 kV |
Residual voltage Ures(L+) - (L-) | ≤ 3.7 kV (at In) |
≤ 3.1 kV (at 5 kA) | |
≤ 3.5 kV (at 10 kA) | |
≤ 4 kV (at 20 kA) | |
≤ 4.6 kV (at 30 kA) | |
≤ 5 kV (at 40 kA) | |
Residual voltage Ures(L+) - PE | ≤ 3.7 kV (at In) |
≤ 3.1 kV (at 5 kA) | |
≤ 3.5 kV (at 10 kA) | |
≤ 4 kV (at 20 kA) | |
≤ 4.6 kV (at 30 kA) | |
≤ 5 kV (at 40 kA) | |
Residual voltage Ures(L-) - PE | ≤ 3.7 kV (at In) |
≤ 3.1 kV (at 5 kA) | |
≤ 3.5 kV (at 10 kA) | |
≤ 4 kV (at 20 kA) | |
≤ 4.6 kV (at 30 kA) | |
≤ 5 kV (at 40 kA) | |
Response time tA(L+) - (L-) | ≤ 25 ns |
Response time tA(L+) - PE | ≤ 25 ns |
Response time tA(L-) -PE | ≤ 25 ns |
Insulation resistance Riso | > 5 GΩ (at 500 V DC) |
Connection name | Remote fault indicator contact |
---|---|
Switching function | PDT contact |
Operating voltage | 5 V AC ... 250 V AC |
125 V AC (UL) | |
30 V DC | |
Operating current | 5 mA AC ... 1.5 A AC |
1 A AC (UL) | |
1 A DC | |
Connection method | Screw connection |
Screw thread | M2 |
Tightening torque | 0.25 Nm |
4 lbf-in. (UL) | |
Stripping length | 7 mm |
Conductor cross section flexible min. | 0.14 mm² |
Conductor cross section flexible max. | 1.5 mm² |
Conductor cross section solid min. | 0.14 mm² |
Conductor cross section solid max. | 1.5 mm² |
Conductor cross section AWG | 28 ... 16 |
30 ... 14 (UL) |
Connection method | Screw connection |
---|---|
Conductor cross section flexible min. | 1.5 mm² |
Conductor cross section flexible max. | 25 mm² |
Conductor cross section solid min. | 1.5 mm² |
Conductor cross section solid max. | 35 mm² |
Conductor cross section AWG | 15 ... 2 |
10 ... 2 (UL) | |
Screw thread | M5 |
Tightening torque | 4.5 Nm |
30 lbf-in. (UL) | |
Stripping length | 16 mm |
Connection method | Biconnect terminal blocks |
Conductor cross section flexible min. | 1.5 mm² |
Conductor cross section flexible max. | 16 mm² |
Screw thread | M5 |
SPD Type | 4 (for Type 2 photovoltaic applications) |
---|---|
Maximum continuous operating voltage MCOV (L+) - (L-) | 1170 V DC |
Maximum continuous operating voltage MCOV (L+) - G | 1170 V DC |
Maximum continuous operating voltage MCOV (L-) - G | 1170 V DC |
Nom. voltage | 970 V AC |
Mode of protection | (L+) - (L-) |
(L+) - G | |
(L-) - G | |
Power distribution system | 1 |
Voltage protection rating VPR (L+) - (L-) | 2.5 kV |
Voltage protection rating VPR (L+) - G | 2.5 kV |
Voltage protection rating VPR (L-) -G | 2.5 kV |
Nominal discharge current In(L+) - (L-) | 10 kA |
Nominal discharge current In(L+) - G | 10 kA |
Nominal discharge current In(L-) - G | 10 kA |
Title: | Size: | Type: |
---|---|---|
PDF CATALOG PHOENIX PROTECTION EN.pdf | 27 Mbytes | |
PHOENIX CONTACT-2800627-VAL-MS 1000DC-PV/2+V-FM | 125 Kbytes |
No customer reviews for the moment.
Rating: | |
Name: | |
Email: | |
Subject: | |
Text: | |
Do you recommend this product to buy? | |
Add review |
All ratings we receive from the items we offer are real and verified. A small gesture, but a lot of value. That's why we thank you for that minute you invest in leaving us your opinion and qualification about the products, because it helps us to continue improving and to offer you a service of even higher quality.