- 200kV 和 400W
- X 射线管电流：0.5mA 至 2.0mA @ 200kV
- 对称的扇形束 85° X 4°, ±1%
- 功率因数校正输入为 0.98
- 100Vac 至 240Vac, ±10%
- 日志和固件控制X 射线管训管
斯派曼的 XRB200PN400/2 是一款集成X射线源，工作电压高达 200kV，功率高达400W，为OEM 用户提供紧凑的即插即用Monoblock® ，用于关键的检查和筛选应用。此单元包含一个15° 斜角固定阳极X射线管，提供一个对称的85° X 4°扇形束。专有的发射控制电路提供了X射线管电流的优良调节，具有行业领先的剂量稳定性和图像质量。这种小巧的模型配备了标准的模拟和RS-232数字控制。斯派曼可以为特定的OEM系统需求提供此平台的定制版本。
(Ref. 128085-001 REV. B)
Tube Type: Stationary Anode, tungsten target
Focal Spot: 0.8 x 0.8mm nominal (IEC60336)
Beam Filter: Glass 2.1mm, maximum. Oil 18mm.
Beam Geometry: Symmetrical fan of 85° X 4°, ±1%
Anode Angle: 15°
Power factor corrected input to 0.98. 100Vac to 240Vac, ±10%, 50/60 Hertz. 6 Amps, maximum
X-Ray Tube Voltage:
Nominal X-Ray tube voltage is adjustable between 100kV to 200kV
The high voltage measured at the X-ray tube will be within ±1% of the selected value.
Ripple will be 1% of maximum rated voltage for frequencies ≤1kHz.
< ±0.1% for ±10% of nominal input line change
< ±0.1% for 0.5mA to 2mA load change
kV overshoot will return within 5% of full voltage in less than 100ms.
The voltage and current risetime is controlled by a ramping circuit. Ramp time is less than 1.0 second from 10% to 90% of output voltage and current.
X-Ray Tube Current:
0.5mA to 2.0mA @ 200kV, 400 watts maximum
<±1% of the selected value.
<0.5% at 100 - 200 kV, 0.5mA to 2.0mA
Unit will detect a single arc but HV will not shut down. If multiple arcs occur (4 in 10 seconds) then the unit will shut down.
Isolated high frequency AC filament drive operated in current mode with closed loop thermionic filament emission control.
The RS-232 and Ethernet interfaces allow for programming of the voltage, current and X-Ray Enable. Provides monitoring for voltage, current and oil temperature. Tolerance is 3%.
A demo GUI is available for engineering evaluation.
0°C to +40°C
-40°C to +70°C
10% to 95% relative humidity, non-condensing.
Heat exchanger with fan and oil pump. Customer provided +24Vdc @ 3A is required. In certain situations, external cooling fans of 250CFM may be required to maintain tank/oil temperature below 55°C.
Input Line Connector:
3 pin Phoenix Contact, p/n 1829167. Mating connector provided with unit.
Analog Interface Connector:
10 pin Phoenix Contact, p/n 1755503. Mating connector provided with unit.
9 pin female D connector. Mating connector provided with unit.
8 pin RJ45 connector.
Heat Dissipation Unit Connector:
4 pin AMP connector, TE Connectivity (206061-1) Mating connector provided with unit.
M4 grounding stud provided on chassis.
See outline drawing.
181 pounds (80kg).
Can be mounted in any orientation.
Not to be greater than .5mR/hr at 5cm from any surface of the Monoblock® when measured at 200kV @ 2mA.
Compliant to EEC Low Voltage Directive. Designed to meet EEC EMC Directive with customer provided external line filter, Corcom p/n 6EU1F or equivalent.
AC INPUT POWER 3 PIN PHOENIX CONTACT P/N 1829167
|1||Line||100-240Vac,±10%, 50/60 Hertz @ 6 amps|
|3||Neutral||100-240Vac,±10%, 50/60 Hertz @ 6 amps|
DC POWER FOR HEAT DISSIPATION UNIT 4 PIN AMP 206061-1 CONNECTOR
|1||+24Vdc||+24Vdc @ 3A*|
|3||+24Vdc||+24Vdc @ 3A*|
*Both +24V supplies are required for pump and fans
ANALOG INTERFACE—10 PIN PHOENIX CONTACT P/N 1755503
|1||X-Ray On||+24Vdc = Enable X-Ray, Low or open = Disable X-Ray|
|2||X-Ray On Return||X-Ray on Return|
|4||kV Monitor||0 to 10Vdc = 0 to 200kV, Zout = 10kΩ|
|6||mA Monitor||0 to 10Vdc = 0 to 2mA, Zout = 10kΩ|
|7||Fault||Open Collector, High (Open) = No Fault, 35Vdc @ 10mA, maximum|
|8||HV On Lamp N/O||Relay dry contact, normally open, 30Vdc @ <1A, nominal 50mA DC load|
|9||HV On Lamp Common||Relay dry contact, common, 30Vdc @ <1A, nominal 50mA DC load|
|10||HV On Lamp N/C||Relay dry contact, normally closed, 30Vdc @ <1A, nominal 50mA DC load|
RS-232 DIGITAL INTERFACE—9 PIN MALE D CONNECTOR
|2||Transmit Data||Conforms to EAI RS-232-C|
|3||Receive Data||Conforms to EAI RS-232-C|
ETHERNET INTERFACE—8 PIN FEMALE RJ45 CONNECTOR
|1||TX+||Transmit Data +|
|2||TX-||Transmit Data -|
|3||RX+||Receive Data +|
FRONT PANEL LED INDICATORS
|INDICATOR||SIGNAL NAME||CONDITION Illuminated When...||LED COLOR|
|LED 1||OT||OverTemperature occurs||Red|
|LED 2||ARC||Arc fault occurs||Red|
|LED 3||UV||Low kV occurs||Red|
|LED 4||OV||High kV occurs||Red|
|LED 5||UC||Low mA occurs||Red|
|LED 6||OC||High mA occurs||Red|
|LED 7||X-RAY ON||X-Rays are enabled||Green|
|LED 8||PWR ON||Power is ON||Green|
The XRB200PN400/2 features data logging and firmware controlled seasoning.
Think of this as an “airplane black box”. The data logging captures data on fault events and non-fault events. Fault events will turn off the high voltage.
Temperature, Arc, High Current, High Voltage, Low Voltage, Watchdog, Power Fault,
Interlock The XRB200PN400/2 stores data 620ms before the event, the event itself and for 620ms after the event. Data is recorded every 20ms (62 samples total) showing: Anode kV, Cathode kV, Total kV, Total mA, Filament, Temperature.
We also log non-fault events, these are changes in set points or state of the unit.
NON FAULT EVENTS
HV On, HV Off, kV Set point, mA Set point, Low Current, Filament Limit Set point, Pre Heat Set point, Line Dip.
Fault event data is actual graphical data. Non fault event data is just stored as event type, data and timestamp. We also have a preventative maintenance fault, which throws a non-shutdown fault if the X-Ray tube has been factory installed over 4 years ago or if over 15,000 hours of HV ON is logged.
Firmware Controlled Seasoning:
Every unit comes with an initial seasoning table, or customers can set their own. The XRB200PN400/2 knows when the unit has been on, when it has been off, hours on the X-Ray tube, etc. As a preventative maintenance feature upon turn on, we review the data and suggest that a particular seasoning protocol be run based upon the actual usage history of the unit. Proper seasoning compliance of the X-Ray tube will help get the longest lifetime.