Baltoscope
FPDigit 24-140R
- Pixel area43 x 43 cm
- Pixel pitch140 µm
- Frame rate15 fps (1x1)-30 fps (2x2)
Improved reliability in inspections, costs reductions and environment cares are today the major factors driving the selection of Radiographic techniques. Due to the progression of silicon technologies and the level of current electronics, signals processing and transfer are becoming efficient and affordably priced to be used in NDT Industries.
Flat panels are a combination of electronic and Silicon technologies which gives a direct conversion media for displaying Radiographic Images instead of using films. Flat panels are basically a two dimension array of detectors which sensitivity is 10 to 100 times greater than conventional films. This helps in reducing exposure time but also gives an extended range of thicknesses with the same use of energy.
Specifications | Units | FPDigit 24-140R |
---|---|---|
Dimensions | mm | 577 (L) x 554 (w) x 35 (h) |
Receptor Type | IGZO TFT | |
Conversion screen | GOS | |
Pixel matrix - Total | 3072 x 3072 | |
Pixel pitch | μm | 140 |
A/D Conversion | bits | 16 |
Energy range (standard) | kV | 40 - 450 |
System Interface | Gigabit Ethernet port | |
Power supply | DC 12 V, 7 A | |
Operating temperature | °C | 10 to 35 |
Humidity (Operating/storage) | % | 30 to 85 RH (Non-condensing) |
The MobiX 16-125S is a portable flat panel detector. Thanks to its battery and Wi-Fi interface, a digital inspection can now be done anywhere. Moreover the MobiX 16-125S is very light, robust and ergonomic which makes it easy to be used in harsh environment and conditions.
The MobiX 16-125S is an X-ray detector with a 16-bit conversion for 125 μm. The acquisition software of the Inspection Suite comes with the equipment providing a user-friendly interface for the acquisition of images. The optional Image Processing Software (IPS012) makes it a complete solution.
Flat panels are a combination of electronics and silicon, providing direct conversion support to display radiographic images instead of using the traditional film technique. This helps to reduce the exposure time but also gives an extended range of thicknesses using the same energy range.
Specifications | Units | MobiX 16-125S |
---|---|---|
Dimensions | mm | 340 (L) x 291 (l) x 18 (h) |
Weight | Kg | 2,3 |
Scintillator | Csl/DRZ-Plus | |
Receptor type | Amorphous silicon | |
Pixel matrix | 2000 x 2400 | |
A/D Conversion | Bits | 16 |
Active area | mm | 250 x 300 |
Pixel pitch | µm | 125 |
Image frequency | Fps | 1 fps |
Interface | WiFi or GigE | |
WiFi | IEEE802.11n/ac (2.4GHz, 5GHz) | |
Data interface | Wired: GigE (≥ 100Mbps) Wireless: 802.11 a/g/n (≥ 100Mbps) | |
Protection | IP54 | |
Power supply | Rechargeable battery |
Improved reliability in inspections, costs reductions and environment cares are today the major factors driving the selection of Radiographic techniques. Due to the progression of silicon technologies and the level of current electronics, signals processing and transfer are becoming efficient and affordably priced to be used in NDT Industries.
Flat panels are a combination of electronic and Silicon technologies which gives a direct conversion media for displaying Radiographic Images instead of using films. Flat panels are basically a two dimension array of detectors which sensitivity is 10 to 100 times greater than conventional films. This helps in reducing exposure time but also gives an extended range of thicknesses with the same use of energy.
Specifications | Units | FPDigit 16-100 |
---|---|---|
Dimensions | mm | 304 (w) x 354 (l) x 34,5 (h) |
Receptor Type | Amorphous silicon TFT | |
Conversion screen | Csl or Gadox | |
Pixel matrix - Total | 3008 x 2512 | |
Pixel pitch | μm | 100 |
A/D Conversion | bits | 16 |
Energy range | kV | 20 - 450 |
System Interface | 1 Gigabit Ethernet port | |
Power supply | 100-240 VAC 50/60 Hz | |
Operating temperature | °C | 0 to 40 |
Humidity (Operating/storage) | % | 30 to 70 RH (Non-condensing) |
Weight | kg | 10/16 |
Improved reliability in inspections, costs reductions and environment cares are today the major factors driving the selection of Radiographic techniques. Due to the progression of silicon technologies and the level of current electronics, signals processing and transfer are becoming efficient and affordably priced to be used in NDT Industries.
Flat panels are a combination of electronic and Silicon technologies which gives a direct conversion media for displaying Radiographic Images instead of using films. Flat panels are basically a two dimension array of detectors which sensitivity is 10 to 100 times greater than conventional films. This helps in reducing exposure time but also gives an extended range of thicknesses with the same use of energy.
Specifications | Units | FPDigit 16-100M |
---|---|---|
Dimensions | mm | 325 (w) x 280 (l) x 40 (h) |
Receptor Type | Amorphous silicon TFT | |
Conversion screen | Csl or 605 | |
Pixel matrix - Total | 3008 x 2496 | |
Pixel pitch | μm | 100 |
A/D Conversion | bits | 16 |
Energy range (standard) | kV | 20 - 450 |
System Interface | 10 Gigabit Ethernet port | |
Power supply | 100-240 VAC 50/60 Hz | |
Operating temperature | °C | 10 to 40 |
Humidity (Operating/storage) | % | 20 to 90 RH (Non-condensing) |
Weight | kg | 5,3 kg (7,6 kg-450kv) |
Improved reliability in inspections, costs reductions and environment cares are today the major factors driving the selection of Radiographic techniques. Due to the progression of silicon technologies and the level of current electronics, signals processing and transfer are becoming efficient and affordably priced to be used in NDT Industries.
Flat panels are a combination of electronic and Silicon technologies which gives a direct conversion media for displaying Radiographic Images instead of using films. Flat panels are basically a two dimension array of detectors which sensitivity is 10 to 100 times greater than conventional films. This helps in reducing exposure time but also gives an extended range of thicknesses with the same use of energy.
Specifications | Units | FPDigit 24-140RC |
---|---|---|
Dimensions | mm | 460 (L) x 460 (w) x 24.9 (h) |
Receptor Type | IGZO TFT | |
Conversion screen | GOS | |
Pixel matrix - Total | 3072 x 3072 | |
Pixel pitch | μm | 140 |
A/D Conversion | bits | 16 |
Energy range (standard) | kV | 20 - 320 |
System Interface | Gigabit Ethernet port | |
Power supply | DC 12 V, 7 A | |
Operating temperature | °C | 10 to 35 |
Humidity (Operating/storage) | % | 30 to 85 RH (Non-condensing) |
The MOBIX 23-100 is a portable flat panel detector. Thanks to its battery and Wi-Fi interface, a digital inspection can now be done anywhere. Moreover the MOBIX 23-100 is very light, robust and ergonomic which makes it easy to be used in harsh environment and conditions. Equipped with an internal memory, the MOBIX 23-100 can store images in order to allow the operator to unload them later.
The MOBIX 23-100 is an X-ray detector with a 16-bit conversion for 100 μm. The acquisition software of the Inspection Suite comes with the equipment providing a user-friendly interface for the acquisition of images. The optional Image Processing Software (IPS012) makes it a complete solution.
Flat panels are a combination of electronics and silicon, providing direct conversion support to display radiographic images instead of using the traditional film technique. This helps to reduce the exposure time but also gives an extended range of thicknesses using the same energy range.
Specifications | Units | Mobi-X 23-100 |
---|---|---|
Dimensions | mm | 384 (L) x 460 (l) x 15,5 (h) |
Weight | Kg | 4.3 |
Housing | Carbon fiber front & back | |
Receptor type | Amorphous silicon | |
Conversion screen | Csl or Gadox | |
Pixel matrix | 4288 x 3524 | |
A/D Conversion | Bits | 16 |
Active area | mm | 350 x 426 |
Pixel pitch | µm | 100 |
Image frequency | Fps | 7 fps at 200μm resolution |
Interface | WiFi or GbE | |
WiFi | 802.11n WiFi Std @ 5 GHz | |
Image transfer time | WiFi: 3000ms / GbE: 500ms | |
On board memory | 1GB DDR3, 8GB SDHC Card | |
Power supply | Rechargeable battery 11,1V*/External Power Supply |
*(Delivered with charger 110 - 240 V)
The MobiX 23-100S is a portable flat panel detector. Thanks to its battery and Wi-Fi interface, a digital inspection can now be done anywhere. Moreover the MobiX 23-100S is very light, robust and ergonomic which makes it easy to be used in harsh environment and conditions.
The MobiX 23-100S is an X-ray detector with a 16-bit conversion for 100 μm. The acquisition software of the Inspection Suite comes with the equipment providing a user-friendly interface for the acquisition of images. The optional Image Processing Software (IPS012) makes it a complete solution.
Flat panels are a combination of electronics and silicon, providing direct conversion support to display radiographic images instead of using the traditional film technique. This helps to reduce the exposure time but also gives an extended range of thicknesses using the same energy range.
Specifications | Units | MobiX 23-100S |
---|---|---|
Dimensions | mm | 465 (L) x 291 (l) x 18 (h) |
Weight | Kg | 4,2 |
Scintillator | DRZ-Plus | |
Receptor type | Amorphous silicon | |
Pixel matrix | 4288 x 3524 | |
A/D Conversion | Bits | 16 |
Active area | mm | 350 x 430 |
Pixel pitch | µm | 100 |
Image frequency | Fps | / |
Interface | WiFi or GigE | |
WiFi | IEEE802.11n/ac (2.4GHz, 5GHz)-802.11 alg/n (>100mps) | |
Image transfer time | WiFi: 3000ms / GbE: 1500ms | |
Protection | IP65 | |
Power supply | Rechargeable battery |
*(Delivered with charger 110 - 240 V)
The MobiX 12-75 is a portable flat panel detector. Thanks to its battery and Wi-Fi interface, a digital inspection can now be done anywhere. Moreover the Mobi-X is very light, robust and ergonomic which makes it easy to be used in harsh environment and conditions.
The MobiX 12-75 is an X-ray detector with a 16-bit conversion for 75 μm. The acquisition software of the Inspection Suite comes with the equipment providing a user-friendly interface for the acquisition of images. The optional Image Processing Software (IPS012) makes it a complete solution.
Flat panels are a combination of electronics and silicon, providing direct conversion support to display radiographic images instead of using the traditional film technique. This helps to reduce the exposure time but also gives an extended range of thicknesses using the same energy range.
Specifications | Units | MobiX 12-75 |
---|---|---|
Dimensions | mm | 208,2 (L) x 256,5 (l) x 27,5 (h) |
Weight | Kg | 2,4 |
Receptor type | IGZO TFT | |
Conversion screen | Csl or Gadox | |
Pixel matrix | 2304 x 3072 | |
A/D Conversion | Bits | 16 |
Active area | mm | 172,8 x 230,4 |
Pixel pitch | µm | 75 |
Image frequency | Fps | 1 (75x75) |
Interface | WiFi or GbE | |
WiFi | IEEE802.11n/ac (2.4GHz, 5GHz), | |
Image transfer time | WiFi: 3000ms / GbE: 1500ms | |
Power supply | Rechargeable battery | |
Protection | °C | IP67 |
The MOBIX 16-100 is a portable flat panel detector. Thanks to its battery and Wi-Fi interface, a digital inspection can now be done anywhere. Moreover the MOBIX 16-100 is very light, robust and ergonomic which makes it easy to be used in harsh environment and conditions. Equipped with an internal memory, the MOBIX 16-100 can store images in order to allow the operator to unload them later.
The MOBIX 16-100 is an X-ray detector with a 16-bit conversion for 100 μm. The acquisition software of the Inspection Suite comes with the equipment providing a user-friendly interface for the acquisition of images. The optional Image Processing Software (IPS012) makes it a complete solution.
Flat panels are a combination of electronics and silicon, providing direct conversion support to display radiographic images instead of using the traditional film technique. This helps to reduce the exposure time but also gives an extended range of thicknesses using the same energy range.
Specifications | Units | Mobi-X 16-100 |
---|---|---|
Dimensions | mm | 282 (L) x 332 (l) x 15,5 (h) |
Weight | Kg | 2.5 |
Housing | Al frame/Carbon/Fiber Window fi ber window | |
Receptor type | Amorphous silicon | |
Conversion screen | Csl or Gadox | |
Pixel matrix | 3008 x 2512 | |
A/D Conversion | Bits | 16 |
Active area | mm | 298 x 248 |
Pixel pitch | µm | 100 |
Image frequency | Fps | 9 fps at 200μm resolution |
Interface | WiFi or GbE | |
WiFi | 802.11n WiFi Std @ 5 GHz | |
Image transfer time | WiFi: 2000ms / GbE: 300ms | |
On board memory | 1GB DDR3, 8GB SDHC Card | |
Power supply | Rechargeable battery 11,1V*/External Power Supply |
*(Delivered with charger 110 - 240 V)
Improved reliability in inspections, costs reductions and environment cares are today the major factors driving the selection of Radiographic techniques. Due to the progression of silicon technologies and the level of current electronics, signals processing and transfer are becoming efficient and affordably priced to be used in NDT Industries.
Flat panels are a combination of electronic and Silicon technologies which gives a direct conversion media for displaying Radiographic Images instead of using films. Flat panels are basically a two dimension array of detectors which sensitivity is 10 to 100 times greater than conventional films. This helps in reducing exposure time but also gives an extended range of thicknesses with the same use of energy.
Specifications | Units | FPDigit 7-127 |
---|---|---|
Dimensions | cm | 5,58 (w) x 18,30 (l) x 17,63 (h) |
Weight | kg | 1,71 |
Housing | Aluminium | |
Receptor Type | Amorphous silicon | |
Conversion screen | DRZ plus, Direct Deposit CsI | |
Pixel matrix - Total | 1024 x 1024 (1 x 1) | |
Pixel pitch | µm² | 127 |
Spatial resolution | lp/mm | 3,94 |
A/D Conversion | bits | 16 |
Energy range (standard) | kVp | 40 - 160 |
Scan method | Progressive | |
MTF | > 48% @ 1 lp/mm (1x1), CsI screen | |
Fill factor | % | 57 |
Standard shielding | Shielded for 160 kV X-ray radiation | |
System Interface | Gigabit Ethernet | |
Power supply | 100 - 240 VAC / 47 - 63 Hz | |
Power Dissipation | V | 15 (typical) |
Operating temperature | °C | 10° to 45° |
Storage temperature | °C | -20° to 70° |
Humidity (Operating/storage) | % | 10 to 90 |
Improved reliability in inspections, costs reductions and environment cares are today the major factors driving the selection of Radiographic techniques. Due to the progression of silicon technologies and the level of current electronics, signals processing and transfer are becoming efficient and affordably priced to be used in NDT Industries.
Flat panels are a combination of electronic and Silicon technologies which gives a direct conversion media for displaying Radiographic Images instead of using films. Flat panels are basically a two dimension array of detectors which sensitivity is 10 to 100 times greater than conventional films. This helps in reducing exposure time but also gives an extended range of thicknesses with the same use of energy.
Specifications | Units | FPDigit 8-127 |
---|---|---|
Dimensions | cm | 5,48 (w) x 18,30 (l) x 15,72 (h) |
Weight | kg | 1,99 |
Housing | Aluminium | |
Receptor Type | Amorphous silicon | |
Conversion screen | Direct Deposit CsI, DRZplus | |
Pixel matrix - Total | 1152 x 1152 (1 x 1) / 576 x 576 (2 x 2) | |
Pixel pitch | µm² | 127 |
Spatial resolution | lp/mm | 3,94 |
A/D Conversion | bits | 16 |
Energy range (standard) | kVp | 40 - 225 |
Scan method | Progressive | |
MTF | > 48% @ 1 lp/mm (1x1), Csl screen | |
Fill factor | 57 % | |
Standard shielding | Shielded for 225 kV X-ray radiation | |
System Interface | Gigabit Ethernet | |
Power supply | 100 - 240 VAC / 47 - 63 Hz | |
Power Dissipation | V | 15 (typical) |
Operating temperature | °C | 10° to 35° |
Storage temperature | °C | -20° to 70° |
Humidity (Operating/storage) | % | 10 to 90 |
Improved reliability in inspections, costs reductions and environment cares are today the major factors driving the selection of Radiographic techniques. Due to the progression of silicon technologies and the level of current electronics, signals processing and transfer are becoming efficient and affordably priced to be used in NDT Industries.
Flat panels are a combination of electronic and Silicon technologies which gives a direct conversion media for displaying Radiographic Images instead of using films. Flat panels are basically a two dimension array of detectors which sensitivity is 10 to 100 times greater than conventional films. This helps in reducing exposure time but also gives an extended range of thicknesses with the same use of energy.
Specifications | Units | FPDigit 11-200 |
---|---|---|
Dimensions | cm | 29,5 (w) x 36,0 (l) x 2,2 (h) |
Weight | kg | 3,7 |
Housing | Aluminium | |
Receptor Type | Amorphous silicon | |
Conversion screen | DRZplus (CsI available in the options) | |
Pixel matrix | pitch | 1024 x 1024 @ 200 μm² |
Spatial resolution | lp/cm | 25 |
A/D Conversion | bits | 14 or 16 |
Amplifi ers | 8 x 128 channel custom low noise ASICs with 2 (AO) or 6 (AP) user selectable gain settings | |
Dynamic range | dB | > 78 dB (14bits) / > 88 dB (16bits) |
Energy range (standard) | kVp | 20 - 15000 |
Standard shielding | kV | 160 |
Scan method | Progressive | |
DQE | 75% (0 cy/mm), 58% (1cy/mm), 37% (2cy/mm) for RQA5 with Csl | |
MTF | 67% (1cy/mm), 33% (2cy/mm) with Csl | |
Lag | < 8% 1st frame | |
System Interface | Gigabit Ethernet | |
Operating temperature | °C | 10° to 40° |
Storing temperature | °C | -10° to 50° |
Humidity | % | 10 - 90% RH (non condensing) |
Supply | 100 - 240 VAC, 50 - 60 Hz | |
Dissipation | W | 25 |
IP code | IP65 |
Improved reliability in inspections, costs reductions and environment cares are today the major factors driving the selection of Radiographic techniques. Due to the progression of silicon technologies and the level of current electronics, signals processing and transfer are becoming efficient and affordably priced to be used in NDT Industries.
Flat panels are a combination of electronic and Silicon technologies which gives a direct conversion media for displaying Radiographic Images instead of using films. Flat panels are basically a two dimension array of detectors which sensitivity is 10 to 100 times greater than conventional films. This helps in reducing exposure time but also gives an extended range of thicknesses with the same use of energy.
Specifications | Units | FPDigit 13-127 |
---|---|---|
Dimensions | cm | 26,6 (w) x 22,3 (l) x 3,32 (h) |
Weight | kg | 4,3 |
Housing | Aluminium | |
Receptor Type | Amorphous silicon | |
Conversion screen | DRZplus or CsI | |
Pixel matrix - Total | 1536 (h) x 1920 (v) @ 127 μm² | |
Pixel pitch | μm² | 127 |
Spatial resolution | lp/mm | 3,94 |
A/D Conversion | bits | 16 |
Energy range (standard) | kVp | 40 - 225 |
Scan method | Progressive | |
MTF | > 48% @ 1 lp/mm (1x1), CsI screen | |
Fill factor | % | 57 |
Standard shielding | Shielded for 225 kV X-ray | |
System Interface | Gigabit Ethernet | |
Power supply | 100 - 240 VAC / 47 - 63 Hz | |
Power Dissipation | V | 15 (typical) |
Operating temperature | °C | 10° to 35° |
Storing temperature | °C | -20° to 70° |
Humidity (Operating/storage) | % | 10 to 90 |
Improved reliability in inspections, costs reductions and environment cares are today the major factors driving the selection of Radiographic techniques. Due to the progression of silicon technologies and the level of current electronics, signals processing and transfer are becoming efficient and affordably priced to be used in NDT Industries.
Flat panels are a combination of electronic and Silicon technologies which gives a direct conversion media for displaying Radiographic Images instead of using films. Flat panels are basically a two dimension array of detectors which sensitivity is 10 to 100 times greater than conventional films. This helps in reducing exposure time but also gives an extended range of thicknesses with the same use of energy.
Specifications | Units | FPDigit 16-139 |
---|---|---|
Dimensions | mm | 337 (w) x 279 (l) x 49,35 (h) |
Weight | kg | 4,1 |
Housing | Aluminium | |
Receptor Type | Amorphous silicon | |
Conversion screen | Direct Deposit CsI, DRZplus | |
Pixel matrix - Total | 1792 x 2176 (1 x 1) | |
Pixel pitch | μm² | 139 |
Spatial resolution | lp/mm | 3,60 |
A/D Conversion | bits | 16 |
Energy range (standard) | kV | 40 - 160 |
Scan method | Progressive | |
MTF | > 48% @ 1 lp/mm (1x1), CSl screen | |
Fill factor | % | 57 % |
Standard shielding | Shielded for 160 kV X-ray radiation | |
System Interface | Gigabit Ethernet | |
Power supply | 100 - 240 VAC / 47 - 63 Hz | |
Power Dissipation | V | 15 (typical) |
Operating temperature | °C | 10° to 35° |
Storing temperature | °C | -20° to 70° |
Humidity (Operating/storage) | % | 10 to 90 |
The FPDigit 16-139HE is high dynamic range x-ray detector. With a 16 Bit conversion and 139 μm² pixel pitch, this fl at panel will offer a frame rates up to 30 frames per second (2 x 2). The acqusition of image will be made by Gigabit Ethernet communication. The FPDigit has internal shielding up to 225kV; Electronics being outside of the detector active area, an additional external shielding of the electronics can be added for use above 225kV.
Improved reliability in inspections, costs reductions and environment cares are today the major factors driving the selection of Radiographic techniques. Due to the progression of silicon technologies and the level of current electronics, signals processing and transfer are becoming effi cient and affordably priced to be used in NDT Industries.
Flat panels are a combination of electronic and Silicon technologies which gives a direct conversion media for displaying Radiographic Images instead of using films. This helps in reducing exposure time but also gives an extended range of thicknesses with the same use of energy.
Specifications | Units | FPDigit 16-139 |
---|---|---|
Dimensions | mm | 337 (w) x 279 (l) x 49,35 (h) |
Weight | kg | 4,1 |
Housing | Aluminium | |
Receptor Type | Amorphous silicon | |
Conversion screen | Direct Deposit CsI, DRZplus | |
Pixel matrix - Total | 1792 x 2176 (1 x 1) | |
Pixel pitch | μm² | 139 |
Spatial resolution | lp/mm | 3,60 |
A/D Conversion | bits | 16 |
Energy range (standard) | kV | 40 - 160 |
Scan method | Progressive | |
MTF | > 48% @ 1 lp/mm (1x1), CSl screen | |
Fill factor | % | 57 % |
Standard shielding | Shielded for 225 kV X-ray radiation | |
System Interface | Gigabit Ethernet | |
Power supply | 100 - 240 VAC / 47 - 63 Hz | |
Power Dissipation | V | 15 (typical) |
Operating temperature | °C | 10° to 35° |
Storing temperature | °C | -20° to 70° |
Humidity (Operating/storage) | % | 10 to 90 |
Improved reliability in inspections, costs reductions and environment cares are today the major factors driving the selection of Radiographic techniques. Due to the progression of silicon technologies and the level of current electronics, signals processing and transfer are becoming efficient and affordably priced to be used in NDT Industries.
Flat panels are a combination of electronic and Silicon technologies which gives a direct conversion media for displaying Radiographic Images instead of using films. Flat panels are basically a two dimension array of detectors which sensitivity is 10 to 100 times greater than conventional films. This helps in reducing exposure time but also gives an extended range of thicknesses with the same use of energy.
Specifications | Units | FPDigit 16-124 |
---|---|---|
Dimensions | mm | 343 (L) x 285 (l) x 45 (h) |
Receptor type | TFT with photodiode | |
Conversion screen | Csl or Gadox | |
Pixel matrix | 2048 x 2560 | |
A/D Conversion | Bits | 16 |
Active area | mm | 253,94 x 317,44 |
Pixel pitch | µm | 124 |
Image frequency (1 x 1) | Fps | 9 / 22 |
Image frequency (2 x 2) | Fps | 18 / 44 |
Interface | GbE (2 ports) | |
Image transfer time | Max. 2Gbps |
The FPDigit 22-100 is high dynamic range x-ray detector. With its 16 inch, more than 16 millions pixels and 100 µm pixel pitch, this flat panel will offer a dynamic range over 84dB with a frame rates up to 15 frames per second. The acqusition of image will be made by optical data communication.
Improved reliability in inspections, costs reductions and environment cares are today the major factors driving the selection of Radiographic techniques. Due to the progression of silicon technologies and the level of current electronics, signals processing and transfer are becoming efficient and affordably priced to be used in NDT Industries.
Flat panels are a combination of electronic and Silicon technologies which gives a direct conversion media for displaying Radiographic Images instead of using films. Flat panels are basically a two dimension array of detectors which sensitivity is 10 to 100 times greater than conventional films. This helps in reducing exposure time but also gives an extended range of thicknesses with the same use of energy.
Specifications | Units | FPDigit 22-100 |
---|---|---|
Dimensions | cm | 67,2 x 59,9 x 44 |
Weight | kg | 25 |
Housing | Aluminium | |
Receptor Type | Amorphous silicon | |
Conversion screen | DRZplus (Csl available in the options) | |
Pixel matrix | pitch | 4096 x 4096 @ 100 μm pixel pitch |
Spatial resolution | lp/cm | 50 |
A/D Conversion | bits | 16 |
Amplifiers | Low noise ASICs with 6 user selectable gain settings | |
Dynamic range | dB | > 84 |
Energy range (standard) | kVp | 40 - 15000 |
Lag | < 8% 1st frame | |
System Interface | Fiber-optical | |
Operating temperature | °C | 10° to 35° |
Storage temperature | °C | -10° to 50° |
Humidity | % | 30 - 70% RH (non condensing) |
Supply | 100 - 240 VAC, 50 - 60 Hz (FPDigit22-200 Power supply 215 W) | |
Dissipation | W | 90 |
Improved reliability in inspections, costs reductions and environment cares are today the major factors driving the selection of Radiographic techniques. Due to the progression of silicon technologies and the level of current electronics, signals processing and transfer are becoming efficient and affordably priced to be used in NDT Industries.
Flat panels are a combination of electronic and Silicon technologies which gives a direct conversion media for displaying Radiographic Images instead of using films. Flat panels are basically a two dimension array of detectors which sensitivity is 10 to 100 times greater than conventional films. This helps in reducing exposure time but also gives an extended range of thicknesses with the same use of energy.
Specifications | Units | FPDigit 22-200 |
---|---|---|
Dimensions | cm | 50,0 (w) x 56,0 (l) x 2,2 (h) |
Weight | kg | 8,8 |
Housing | Aluminium | |
Receptor Type | Amorphous silicon | |
Conversion screen | DRZplus (Csl available in the options) | |
Pixel matrix | pitch | 2048 x 2048 @ 200 μm² |
Spatial resolution | lp/cm | 25 |
A/D Conversion | bits | 14 or 16 |
Amplifiers | 16 x 128 channel custom low noise ASICs with 2 (AO) or 6 (AP) | |
Amplifiers | user selectable gain settings | |
Dynamic range | dB | > 74 dB (14bits) / > 85 dB (16bits) |
Energy range (standard) | kVp | 20 - 15000 |
Scan method | Progressive | |
DQE | 67% (0 cy/mm), 53% (1cy/mm), 36% (2cy/mm) for RQA5 with Csl | |
MTF | 63% (1cy/mm), 31% (2cy/mm) with Csl | |
Lag | < 6% 1st frame | |
System Interface | Gigabit Ethernet | |
Operating temperature | °C | 10° to 40° |
Storage temperature | °C | -10° to 50° |
Humidity | % | 10 - 90% RH (non condensing) |
Supply | 100 - 240 VAC, 50 - 60 Hz (FPDigit22-200 Power supply 40W) | |
Dissipation | W | 32 |
Improved reliability in inspections, costs reductions and environment cares are today the major factors driving the selection of Radiographic techniques. Due to the progression of silicon technologies and the level of current electronics, signals processing and transfer are becoming efficient and affordably priced to be used in NDT Industries.
Flat panels are a combination of electronic and Silicon technologies which gives a direct conversion media for displaying Radiographic Images instead of using films. Flat panels are basically a two dimension array of detectors which sensitivity is 10 to 100 times greater than conventional films. This helps in reducing exposure time but also gives an extended range of thicknesses with the same use of energy.
Specifications | Units | FPDigit 24-139 |
---|---|---|
Dimensions | cm | 61,8 (w) x 52,8 (l) x 24,4 (h) |
Receptor Type | Amorphous silicon | |
Conversion screen | DRZplus | |
Pixel matrix - Total | 3072 x 3072 | |
Pixel pitch | μm² | 139 |
A/D Conversion | bits | 16 |
Energy range (standard) | kV to MV | 20kV to 16 MV (With appropriate shielding) |
System Interface | Gigabit Ethernet | |
Power supply | DC 24 V, 1.7 A | |
Operating temperature | °C | 10° to 35° |
Humidity (Operating/storage) | % | 10 to 90 |
Weight | Kg | 14,6 |
The Phantom is a tool designed by Balteau NDT to answer the highest quality requirements in digital radiography. Because of this product, different test can be defined to qualify and maintain qualified an equipment of digital image acquisition such as flat panels.
The phantom is made of steel Inox 316 composed of 2 plates of 2mm thick to ensure strength and reliability of the equipment. The 2 plates dimensions are 326 x 275,5 mm and are manufactured to enable inserts of different measuring tools for quality certification purpose. The phantom software will provide a PDF reporting of the quality supplied by the digital receiver (flat panel).
The measurement tools will depend of the industry and so of the specific quality requirement of that industry. If more details are required, do not hesitate to contact Balteau NDT or your local distributor.
Specifications | Units | Phantom |
---|---|---|
Dimensions | mm | 326 x 275,5 |
Weight | Kg | 3,875 |
Quality certificication | CE manufacturing process | |
Quality certificication | Quality and performance certifi cate | |
Quality certificication | Declaration of conformity | |
Homogeneity measure | Tolerance of 0.4mm and thickness homogeneity of +/- 0.05mm | |
Distortion measure | Precision of 0.1mm and 0.1° | |
Linearity & SNR measure | Precision of 0.1mm | |
Sensitivity & CNR measure | Precision of 0.2mm | |
MTF measure | IQI duplex with a 5° tilt |
The Scannix + is an industrial X-Ray film digitizer specifically designed to offer the highest quality of images for the NDT market. Not an additional operation but a true improvement.
In the radiographic industry, Films storage and post processing have always been neglected. Both these aspects are however very important matters to take into account in the overall costs and efficiency of the Radiographic process. A computerized storage of the radiographies will also dramatically reduce the risk of loosing the archives of a job.
The scannix + is driven by our Acquisition software and is delivered with the scanner as a standard. As a digital image, a radiography can also be processed with our Image Processing Software IPS012 allowing details that were hidden to appear, thanks to different filters and the contrast settings but also a lot of different tools and add-on like SRb, SNR, etc. Acquisition can also be linked to IPS012 allowing an automatic transfer of the image to start processing the radiography. Scanning radiographies will also improve and fasten communications as digitized version can easily be send by email to a customer or an expert.
Not only because it is environment friendly but also because it is an inexpensive operation to perform, High definition scanning of your films is the key solution to improve your service quality and extend your inspection capabilities.
Specifications | Units | Scannix + |
---|---|---|
Optical density range | 0,5 to 4,5 (based on ISO14096) | |
Bit depth | Bit | 8, 12 and 16 bit grayscale output |
MTBF | Hours | > 50,000 |
Film sizes | Width | 2,36’’ to 14’’ |
Film sizes | Length | 8’’ to 51’’ |
Auto film feeder | Standard 25 fi lm capacity (mixed size batches, no presorting necessary) | |
Translation table | Linear OD | |
Geometric accuracy | Better than 1% or 2 pixels (whichever is greater, in both axes) | |
Scan rate | 92 lines / second | |
Hardware interface | USB 2.0 | |
Software | Acquisition (included) from the Inspection Suite | |
Operating temperature | °C | 10 to 35 (20 to 85% relative humidity, non-condensing) |
Light source | LED illuminator | |
Detector | Next generation Solid-State High-Definition CCD | |
Dimensions | cm | 48 x 58 x 83 (without feeder and exit tray) |
Mains | V | 80 ~ 260 |
Weight | Kg | 21 |
Automation is the top level module that will aggregate all others such as XRRC (X-Ray Remote Control), ARC (Axis Remote Control), DRC (Diaphragm Remote Control), Etc. into one window and offer transparent access to all controllers on only one screen.
Automation also includes a teaching mode which will record sequence of motions, x-ray settings, time of exposure, etc. Later the recorded sequences can be played back providing an automated inspection of components.
The optional database add-on will use a SQL database to store sequences and index the images metadata (DICONDE only). The same database can then be used from IPS to quickly retrieve images using a search engine.
Recommendations:
Professionnal 19" industrial computer
The Image Processing System (IPS) software enable to process digital radiography to find and display the defects of a component. With the different filters and zoom capabilities, the most difficult and tiniest defect can be quickly located. IPS can be linked with the acquisition module to receive the images acquired. This can be done on the same computer or using a separate reviewing station. Integration is also accomplished with the automation module, showing the images in real time as well as querying the (optional) database. IPS has an extensible architecture, this means you can expand the features using add-on modules.
Balteau provides a number of modules and custom ones can be developed on demand. Existing add-on: SRb (Basics Spacial Resolution), SNR (Signal to Noise Ratio), DICONDE (Reader & writer), DB (Database), & more on demand.
Recommendations:
Professionnal 19" industrial computer
Drives detectors such as flat panel, digital camera or image intensifier. Showing images in real time, the user can take snapshot or record videos whenever he’s satisfied and it will be automatically stored on the selected disk. This module can support Diconde, Dicom, Tiff, Jpeg, Png, Bmp and raw images.
The Acquisition module works as a standalone module or can be integrated with IPS and Automation. It can also be integrated with an external application using a simple communication protocol based on «sockets».
Recommendations:
Professionnal 19" industrial computer
ADR is a software module that has been created to finalize the Automation process by identifying automatically the parts that have default or not to then inform the end user which one is « accepted », « rejected », « to be verified », etc.
This will lead to a much faster flow of inspection as very strict rules will have been defined within the software, reducing mistakes and costs but increase reliability.
Depending on the part that will be inspected, a lot of different criteria can be looked for in terms of default and be recognized by the ADR module such as: Dimensions, foreign substances/objects, position/location, quantity, distance/gap, nature/density, angles, profiles/deviations, and much more.
The Acquisition module works as a standalone module or can be integrated with IPS and Automation. It can also be integrated with an external application using a simple communication protocol based on «sockets».
Recommendations:
Professionnal 19" industrial computer
X-Ray Remote Control (XRRC) is the software module that connects to the X-ray source using a serial link and is able to control all operations remotely, directly on the computer screen. Allowing you to interact with the mA, kV, start and stop the X-ray from running, view of the tube characteristics and state, start and stop preheating, choose tube focus, load exposure charts, etc.
All Balteau generators are supported by X-Ray Remote Control, contact us for more details on other brands. The LS1 from Baltograph Series has also uses the X-Ray Remote Control Software making it a friendly environment for those who uses Balteau equipment on both platform.
Recommendations:
Professionnal 19" industrial computer
Dicom Dir Navigator (DDN) is a stand alone module designed to create libraries of images but also to transfer images between users.
Creates your own DCM images libraries with the Dicom Dir Standard and share them with your customers, thanks to the free included viewer.
Recommendations:
Professionnal 19" industrial computer
IPS Report is an add-on modules to IPS012 allowing the end-user to start reporting the processing of the image automatically. The report is completely customizable regarding the needs of every industries. All metadatas from the image will be collected and added into the report, industry regulations, NDT standards, filters, measurements, and much more.
Recommendations:
Professionnal 19" industrial computer
RIO is a stand alone module designed to organize, recall and display Reference Images such as ASTM.
Radiographers can now load reference images within their Image Processing Software and compare with their own radiographies using all available tools. Balteau NDT has also developed an ASTM extractor that will extract all selected images from the ASTM dvd to store in your database and use with RIO module.
RIO also allows to create a database of your own images, making your own references.
Recommendations:
Professionnal 19" industrial computer
The Axis Remote Control (ARC) module will control the motors of the equipment, such as manipulators, doors, etc. It works with the latest technology and allows up to 9 axes.
ARC stands for Axis Remote Control and provides a uniform user interface whatever the motors are. It makes use of the motor with position encoder to offer excellent precision and repeatability.
ARC works as a stand alone module and/or can be integrated with Automation. It can also be integrated with an external application using a simple communication protocol based on "sockets".
Recommendations:
Professionnal 19" industrial computer
The Diaphragm Remote Control (DRC) module Controls the motors of the different shutters of the collimator. It works with the latest technology regarding motors control and allows up to 4 shutters. DRC stands for Diaphragm Remote Control. DRC provides an intuitive graphical user interface to view and control how you diaphragm is positionned.
DRC works as a standalone module or can be integrated with Automation. It can also be integrated with an external application using a simple communication protocol based on "sockets".
Recommendations:
Professionnal 19" industrial computer