NDT1470
4 Ch Reversible 8 kV/3 mA (8 W) NIM/Desktop HV Power Supply Module (USB/Ethernet/T.screen)
Features
- 4 independent channels in 2U NIM module
- 220 V/110 V AC plug for desktop operation
- 8 kV / 3mA output range
- Max output power:
- 9 W (<3 kV output)
- 8 W (>3 kV output)
- Channels with individually selectable positive or negative polarity
- SHV coaxial output connectors
- Common floating return
- Low Ripple
- Under/over-voltage alert, overcurrent and max. voltage protection
- Interlock logic for board enable and Individual channel kill
- 50 nA Current monitor resolution (with x10 Imon-Zoom: 5 nA)
- 2.8″ color touch screen display
- Local and Remote control (USB2.0/Ethernet)
- Daisy-chain capabilty
- Software Tools for easy channel management
Overview
The CAEN Mod. NDT1470 provides 4 independent High Voltage channels in a double width NIM mechanics. Desktop operation (110/220V AC Powered, needless a NIM crate) is also supported. Each channel can provide a ±8 kV max voltage, a 3 mA max current and a 9 W max power (8 W max power when output voltage is larger than ±3 kV). The output polarity is independently selectable for each channel.
Channels have common floating return (common return insulated from the crate ground); HV outputs are delivered through SHV connectors. The HV output Ramp-up and Ramp-down rates may be selected independently for each channel in the range 1÷500 V/s in 1 V/s steps. The module features 50 nA Iset/Imon resolution. Zoom (x 10) for Imon increases resolution to 5nA.
|
SHV connector
NIM double width, 4 channels Mod. NDT1470 |
Consult our connectors reference page for technical information.
Module control can take place either locally thanks to a 2.8″ Touchscreen Graphic color LCD display with a completely redesigned user interface or remotely, via USB 2.0 or Ethernet. A complete set of free software Tools is available to control this unit: GECO2020 with user friendly GUI and CAEN HV Wrapper library for custom SW development. EPICS and LabVIEW also supported.
Safety features allows the module to perform as a current generator and includes:
| Overvoltage and Undervoltage warning | when the output voltage differs from the programmed value by more than 2% of set value (minimum 10V). |
| Overcurrent detection | if a channel tries to draw a current larger than its programmed limit, it enters TRIP status, keeping the maximum allowed value for a programmable time (TRIP), before being switched off. |
| VMAX | programmable VMAX protection limit. |
| Safety Board Interlock | common Interlock logic for channels enable/disable and individual inputs signal for channel Kill function. |
Technical Specifications
- Package
Double width NIM mechanics. Weight: ~2.6 kg
- Output channels
4 channels, Common Floating Return, SHV connector Positive or Negative Polarity (requires internal setting)
- Output ranges
8 kV / 3 mA (IMonRange = High)
8 kV / 300 µA (IMonRange = Low) – Imon Zoom Active
- Max. Ch. Output Power
9 W (Vset < 3 kV)
8 W (Vset > 3 kV)
- Vset Resolution
200 mV
- Vmon Resolution
200 mV
- Iset Resolution
50 nA
- Iset / Imon Resolution
50 nA (IMonRange = High)
5 nA (IMonRange = Low) – Imon Zoom Active
- Vmax
0 ÷ 8100 V Absolute maximum HV level that the channel is allowed to reach, independently from the preset value Vset. Output voltage cannot exceed the preset value Vmax. The accuracy is 1 % ± 5 V
- Vmax resolution
± 1 V
- Alarm output
Open collector, 100 mA maximum sink current
- Interlock input
LOW: < 1 V; current~5mA; HIGH: 4÷6 V
- Ramp Up/Down
1÷500 Volt/s, 1 Volt/s step
- Trip
- Max. time an “overcurrent” can last (seconds). A channel in “overcurrent” works as a current generator; output voltage varies in order to keep the output current lower than the programmed value.
- “Overcurrent” lasting more than set value (1 to 9999) causes the channel to “trip”.
- Output voltage will drop to zero either at the Ramp-down rate or at the fastest available rate, depending on Power Down setting; in both cases the channel is put in the OFF state.
- Trip range: 0 ÷ 999.9 s; 1000 s = INFINITE. Step = 0.1 s (If trip= INFINITE, “overcurrent” lasts indefinitely)
- Voltage Ripple
20 ÷ 1000 Hz: - 3kV/200µA. Typical: 20 mVpp / Maximum: 25 mVpp
- 3kV/3mA. Typical: 20 mVpp / Maximum: 30 mVpp
- 8kV/800µA. Typical: 25 mVpp / Maximum: 30 mVpp
1 ÷ 20000 kHz: - 3kV/200µA. Maximum: 10 mVpp
- 3kV/3mA. Typical: 5 mVpp / Maximum: 10 mVpp
- 8kV/800µA. Typical: 10 mVpp / Maximum: 15 mVpp
- Vmon vs. Vout Accuracy
:±0.02% of read value ±2V
- Vset vs. Vout Accuracy
±0.02% of read value ±2V
- Imon vs. Iout Accuracy
±2% of read value ±2 µA (IMonRange = High)
±2% of read value ±200 nA (IMonRange = Low) – Imon Zoom Active
- Iset vs. Iout Accuracy
±2% of read value ±2 µA (IMonRange = High)
±2% of read value ±200 nA (IMonRange = Low) – Imon Zoom Active
- Cooling Fan
2 Sunon 60 x 60 x 15 mm; 12V KDE1206PHV1 and 2 Mouser 40x40x20 mm; 12V 1608KL-04W-B50-L00
- Humidity range
0 ÷ 80%
- Operating temperature
0 ÷ 45°C
- Storage Temperature
-10 ÷ 70°C
- Vout / Temperature coefficient
max. 50 ppm/C°
- Imon / Temperature coefficient
max 100 ppm/C°; max 300 ppm/C° with Imon X10 zoom
- Long term stability Vout vs. Vset
± 0.02% (after one week @ constant temperature)
Compare
Compare with NIM High Voltage Power Supplies.
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Ordering Options
| Code | Description |
|---|---|
| WNDT1470AAAA | NDT1470 - 4Ch NIM/Desktop Programmable HV Power Supply (±8kV, 3mA, 50nA res.) RoHS |
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Related Software
SW1470
Control Software for NIM Power Supply Modules
LabVIEW Driver (PSM - Power Supply Modules)
LabVIEW Instrument Driver for Power Supply Modules
GECO2020
GEneral COntrol Software for CAEN HV Power Supplies
EPICS IOC (PSM Power Supply Modules)
EPICS IOC for Power Supply Modules
CAEN HV Wrapper Library
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