XRB80N100 Monoblock® X-Ray Generators
- Integrated HV Supply, Filament Supply, X-Ray Tube, Beam Port and Control Electronics
- Compact & Lightweight
- Universal Input, Power Factor Corrected with Internal EMI Filter
- Can be Mounted in Any Physical Orientation
- Analog Control Interface and Standard RS-232 Digital Interface
*Note: All specifications are subject to change without notice. Please consult the English PDF version of this datasheet for the most up-to-date revision.
80kV, 100W X-Ray Source
Spellman’s XRB80N100 Monoblock® X-Ray source is designed for OEM applications powering its internal X-Ray tube up to 80kV at 100W. Features like universal input, small package size and a standard analog and RS-232 digital interface simplify integrating this unit into your X-Ray system. The XRB80N100 is available either with fan shaped (standard) or (optional) cone shaped beam geometries. Proprietary emission control circuitry provides excellent regulation of X-Ray tube current, along with outstanding stability performance.
Typical XRB80N100 Monoblock® Integrated X-Ray Source applications:
- X-Ray Scanning: Bone Densitometry
- Thickness Measurement
- Food Inspection
- Fill Level Confirmation
- Parcel Inspection
(Ref. 128065-001 REV. Y)
Focal Spot: 0.5mm (IEC 336)
Ultem: 3.30mm ±0.15mm
Oil: 8mm ±0.1mm
Glass: 1.8mm ±0.25mm
Fan: Standard. The beam angular coverage will be 75° with the beam plane perpendicular to the X-Ray tube axis and 13° wide.
Cone: Optional. 25° cone beam
Power factor corrected input 0.98, 100-240Vac ±10% 50/60Hz, 2A, maximum
X-Ray Tube Voltage:
Nominal X-Ray tube voltage is adjustable up to 80kV
X-Ray Tube Current:
150uA to 1.25mA over specified tube voltage range
X-Ray Tube Power:
100W, maximum continuous
Line: ±0.05% of maximum output voltage over a ±10% change of nominal input line voltage
Load: ±0.1% of maximum rated voltage for 150uA to 1.25mA load change
Voltage measured across the X-Ray tube is within ±2% of the programmed value
Standard: Ramp time shall be 500ms from 10% to 90% of maximum rated output voltage
Optional: 5 seconds. Specify at time of order
5% of maximum voltage, to return within 2.5% of maximum voltage in less than 100ms
1% peak to peak of maximum voltage for frequencies ≤ 1kHz
Emission Current Parameters
Line: ±0.05% of rated output current over a ±10% change of nominal input line voltage
Load: ±0.1% of rated output current for a change from 50% to 100% of rated output voltage
Current measured through the X-Ray tube is within ±2% of the programmed value
Standard: Ramp time shall be 500ms from 10% to 90% of maximum rated current
Optional: 5 seconds. Specify at time of order
3 arcs in 10 seconds with a 200ms quench = Shutdown
Internal high frequency AC filament drive with closed loop filament emission control
Ground referenced 0 to 9Vdc for all programming and monitoring signals. Relay contacts and open collector signals for other signals. See analog interface connector pin out table.
Jumpers are needed to be configured and the digital interface cable installed to enable the RS-232 interface.
A demo GUI is available for engineering evaluations
A hardware interlock functions in both analog and digital programming modes. The hardware X-Ray Enable signal only functions in analog programming mode.
0°C to +40°C
-40°C to +70°C
10% to 95% relative humidity, non-condensing
Customer provided 150cfm external cooling fan as required to maintain oil temperature below 55°C. (External cooling is not required if fan option is selected)
Input Line Connector:
3 pin, Phoenix Contact 1829167, SHV part number 105725-219. Mating connector Phoenix Contact #1805990, SHV part number 105808-475 provided with unit.
Analog Interface Connector:
15 pin D connector, male
Digital Interface Connector:
9 pin D connector, female
8-32 ground stud provided on chassis
9.6.L X 7.6.W X 7.0.H (243.8mm x 193.0mm x 177.8mm)
Can be mounted in any orientation.
Not to be greater than 0.5mR/hr at 5cm outside the external surface.
Compliant to EEC EMC Directive. Compliant to EEC Low Voltage Directive. UL/CUL recognized file E235530.
RT - 5 second Risetime for both voltage and current
CB - Cone Beam
FN - Integrated Cooling Fan
M - Elapsed Time Meter (measures X-Ray ON elapsed time)
AC LINE POWER CONNECTOR— J1 THREE POSITION PHOENIX CONTACT
Mating connector provided with unit
RS-232 DIGITAL INTERFACE— J3 9 PIN FEMALE D CONNECTOR
XRB ANALOG INTERFACE— J2 15 PIN MALE D CONNECTOR
|1||Power Supply Fault Output||Open collector, 35V @ 10mA max. high = no fault|
|2||mA Program Input||0 to 9.00Vdc = 0 to 100% rated output, Zin =10MΩ|
|3||kV Program Input||0 to 9.00Vdc = 0 to 100% rated output, Zin =10MΩ|
|4||X-Ray On Lamp Relay Output||Common, dry contacts, 30Vdc @ 1A, max|
|5||X-Ray On Lamp Relay Output||Normally open, X-Ray ON = closed|
|6||mA Monitor Output||0 to 9Vdc = 0 to 100% rated output, Zout =10kΩ|
|7||X-Ray On Lamp Relay Output||Normally closed, X-Ray ON = open|
|8||kV Monitor Output||0 to 9.00Vdc = 0 to 100% rated output, Zout =10kΩ|
|11||HV Interlock Return Input||Connect to Pin 12 to close HV interlock|
|12||HV Interlock Output||+15Vdc @ open, 5mA when connected to pin 11|
|13||X-Ray Enable Output||+15Vdc @ open, 5mA when connected to pin 15|
|14||X-Ray Status Output||Open collector, 35V @ 10mA max high = X-Ray OFF|
|15||X-Ray Enable Return Input||Connect to pin 13 to enable X-Ray generation|
|Indicator||Signal Name||Condition Illuminated When...|
|LED 1||OV||High kV occurs|
|LED 2||UV||Low kV occurs|
|LED 3||UC||Low mA occurs|
|LED 4||OC||High mA occurs|
|LED 5||ARC FLT||Arc fault occurs|
|LED 6||OT||Over temperature occurs|
|LED 7||X-RAY ON||X-Rays are enabled|
|LED 8||PWR||Power is ON|
|How to Order:|
|Standard: Prt No.: XRB80N100|
Risetime, Cone Beam, Fan and Elapsed Time Meter Options
Tables & Diagrams
Cooling Fan Options
Frequently Asked Questions
Why Is Oil Insulation Used?
Do I Need to Ensure My Monoblock® Stays Cool? Why?
How Often Do I Need to Season My Monoblock® X-Ray Source? Why?
Application Notes AN-12 – The Benefit of Using a Current Source to Power X-Ray Tube Filament Circuits