Difference between revisions of "X-Ray"
(Created page with "Useful for finding die position in packages, looking into epoxied modules, etc https://www.ebay.com/itm/Horiba-XGT-7000-X-Ray-Analytical-Microscope-XRF-w-Processor-Controller...") |
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https://www.ebay.com/itm/Horiba-XGT-7000-X-Ray-Analytical-Microscope-XRF-w-Processor-Controller/132508993060 | https://www.ebay.com/itm/Horiba-XGT-7000-X-Ray-Analytical-Microscope-XRF-w-Processor-Controller/132508993060 | ||
− | |||
− | = Sensor = | + | *Horiba XGT-7000 X-Ray Analytical Microscope XRF w/ Processor Controller |
+ | |||
+ | =Sensor= | ||
DIY using DSLR: https://twitter.com/FauthNiklas/status/967192093318942720 | DIY using DSLR: https://twitter.com/FauthNiklas/status/967192093318942720 | ||
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− | == Digital intraoral == | + | ==Digital intraoral== |
[[gendex_gxs700|Gendex GXS700 / Dexis Platinum USB sensor]] | [[gendex_gxs700|Gendex GXS700 / Dexis Platinum USB sensor]] | ||
Line 18: | Line 19: | ||
− | == Digital body == | + | ==Digital body== |
https://www.youtube.com/watch?v=QSVJtwehwho | https://www.youtube.com/watch?v=QSVJtwehwho | ||
− | * "Digital x-ray panel sensors, teardown & reverse-engineering" | + | |
− | * Canon CXDI-701C | + | *"Digital x-ray panel sensors, teardown & reverse-engineering" |
+ | *Canon CXDI-701C | ||
Someone also mentioned Varian and Trixell | Someone also mentioned Varian and Trixell | ||
− | == Intensifying screens == | + | ==Intensifying screens== |
Introduction to screens ([http://www.mcio.com/Products/comparison-chart.aspx ref]): | Introduction to screens ([http://www.mcio.com/Products/comparison-chart.aspx ref]): | ||
− | * standard | + | *standard |
− | ** slow | + | **slow |
− | ** calcium tungstate | + | **calcium tungstate |
− | * rare earth | + | *rare earth |
− | ** fast | + | **fast |
− | ** gadolinium or lanthanum | + | **gadolinium or lanthanum |
− | ** Commercial brands: Kodak Lanex | + | **Commercial brands: Kodak Lanex |
Details on different phosphors: http://www.pocketmagic.net/x-ray-intensifying-screen/ | Details on different phosphors: http://www.pocketmagic.net/x-ray-intensifying-screen/ | ||
Line 46: | Line 48: | ||
Brands: | Brands: | ||
− | * 3M | + | *3M |
− | * AGFA | + | *AGFA |
− | * DUPONT/STERLING | + | *DUPONT/STERLING |
− | * FUJI | + | *FUJI |
− | * JPI | + | *JPI |
− | * KIRAN | + | *KIRAN |
− | * KODAK | + | *KODAK |
− | ** Lanex: rare earth green | + | **Lanex: rare earth green |
− | * KONICA | + | *KONICA |
− | * MCI OPTONIX | + | *MCI OPTONIX |
Following sections are for screens I own. Basically they were cheap on eBay | Following sections are for screens I own. Basically they were cheap on eBay | ||
− | {| class="wikitable sortable" border=1 | + | {| class="wikitable sortable" border="1" |
− | !Image !!Vendor !!Product !!Phosphor !!Speed !!Size !!kV sensitivity !!Labels !!Notes | | + | !Image!!Vendor!!Product!!Phosphor!!Speed!!Size!!kV sensitivity!!Labels!! Notes | |
|- | |- | ||
− | | [[File:mcmaster_kodak_lanex_fine_x-omat_out2.jpg|300 px]] <br />[[File:mcmaster_kodak_lanex_fine_x-omat_out1.jpg|300 px]] <br />[[File:mcmaster_kodak_lanex_fine_x-omat_in.jpg|300 px]] | + | |[[File:mcmaster_kodak_lanex_fine_x-omat_out2.jpg|300 px]] <br />[[File:mcmaster_kodak_lanex_fine_x-omat_out1.jpg|300 px]] <br />[[File:mcmaster_kodak_lanex_fine_x-omat_in.jpg|300 px]]||Kodak||Lanex X-OMAT Fine||Green rare earth||100|| || ||<br />EXTREMITY <br /> <br />Tube Side <br /> <br /> <br /> <br />Kodak cassette <br /> <br /> <br /> <br />Kodak Lanex <br /> <br />Fine Screens <br /> <br />KODAK X-OMAT Cassette <br /> <br />Made in the U.S.A. by <br /> <br />EASTMAN KODAK COMPANY <br /> <br />Rochester, New York 14650 <br /> <br />TM: Kodak, Lanex, X-Omat <br /> <br />KP 115179 <br /> <br /> <br /> <br />KODAK LANEX FINE 1261004232CA#9341|| |
|- | |- | ||
− | | [[File:mcmaster_kiran_kg-4_out2.jpg|300 px]] <br />[[File:mcmaster_kiran_kg-4_out1.jpg|300 px]] <br />[[File:mcmaster_kiran_kg-4_in.jpg|300 px]] | + | |[[File:mcmaster_kiran_kg-4_out2.jpg|300 px]] <br />[[File:mcmaster_kiran_kg-4_out1.jpg|300 px]] <br />[[File:mcmaster_kiran_kg-4_in.jpg|300 px]]||Kiran||KG4||Green rare earth||400|| || ||<br />SKU: JV-NIC-B-KIRACASE <br /> <br />Date: 1/30/12 <br /> <br />BIN: <br /> <br />Kiran 8"x12" KG4 Medical Hospical X-Ray <br /> <br />Hard Case Intensifying Screen Cassette <br /> <br /> <br /> <br />Kiran Intensifying Screens <br /> <br />Date Installed: 12/05 <br /> <br />Screen Type: KG4 <br /> <br />Date Last Cleaned: <br /> <br /> <br /> <br />KG4 <br /> <br />825234|| |
|- | |- | ||
− | | [[File:mcmaster_dupont_cronex_qunta_detail_out2.jpg|150 px]] <br />[[File:mcmaster_dupont_cronex_qunta_detail_out1.jpg|150 px]] <br />[[File:mcmaster_dupont_cronex_qunta_detail_in.jpg|300 px]] | + | |[[File:mcmaster_dupont_cronex_qunta_detail_out2.jpg|150 px]] <br />[[File:mcmaster_dupont_cronex_qunta_detail_out1.jpg|150 px]] <br />[[File:mcmaster_dupont_cronex_qunta_detail_in.jpg|300 px]]||Dupont||Cronex Quanta Detail||Blue rare erath||100||7"x17"|| ||<br />EXTREMITY CASSETTE <br /> <br /> <br /> <br />18×43 cm. <br /> <br />(7 x 17 in.) <br /> <br /> <br /> <br />LETTER NO. 8 <br /> <br />SCREEN NO. <br /> <br />DATE CLEANED: 7-20-98 <br /> <br />BY: FM <br /> <br /> <br /> <br />11382 <br /> <br />DUPONT CRONEX <br /> <br />INTENSIFYING SCREENS <br /> <br />QUANTA DETAIL <br /> <br /> <br /> <br />DUPONT QUANTA DETAIL-T J1 3CCC24|| |
|- | |- | ||
|} | |} | ||
− | == Intensifying tube == | + | ==Intensifying tube== |
[[x-ray_image_intensifier]] | [[x-ray_image_intensifier]] | ||
Line 79: | Line 81: | ||
+ | =Source= | ||
− | + | {| class="wikitable sortable" border="1" | |
− | + | !Image!!Vendor!!Model!!Type!!Note | |
− | {| class="wikitable sortable" border=1 | ||
− | ! Image | ||
|- | |- | ||
− | | | + | | ||GE||[[ge_ge_1000 | 1000]]||Tubehead|| |
|- | |- | ||
− | | | + | | ||Eureka||[[eureka_em125 | Emerald 125]]|| || |
|- | |- | ||
− | | | + | | ||Eureka||[[eureka_ra51 | RA51-1.5]]|| || |
|- | |- | ||
|} | |} | ||
− | == Rotating anode systems == | + | ==Rotating anode systems== |
Include: | Include: | ||
− | * DUNLEE 180-00 | + | |
− | * Rigaku Denki Rotaflex Rotating Anode X Ray 4363 F Cu Shutter Control Assembly | + | *DUNLEE 180-00 |
− | * RIGAKU, MICROMAX 007HF 4364F501 | + | *Rigaku Denki Rotaflex Rotating Anode X Ray 4363 F Cu Shutter Control Assembly |
− | * Transworld 325v | + | *RIGAKU, MICROMAX 007HF 4364F501 |
− | * Craigslist freebie | + | *Transworld 325v |
− | * Varian Medical Systems RAD-99B tube | + | *Craigslist freebie |
− | * VARIAN G-1086, Housing Type B-160H | + | *Varian Medical Systems RAD-99B tube |
− | * Varian RAD-21 VMS SAPP-150KV | + | *VARIAN G-1086, Housing Type B-160H |
− | * 8000-3488 UNIVERSAL UNI-MATIC 325D GENERATOR MODEL NO. 3488/3550 | + | *Varian RAD-21 VMS SAPP-150KV |
− | * GE Medical Systems AMX4 Portable X-Ray | + | *8000-3488 UNIVERSAL UNI-MATIC 325D GENERATOR MODEL NO. 3488/3550 |
− | * EUREKA DIAMOND 150 X-RAY TUBE | + | *GE Medical Systems AMX4 Portable X-Ray |
− | * EUREKA MODEL EMERALD 125 X RAY TUBE !! K366 | + | *EUREKA DIAMOND 150 X-RAY TUBE |
+ | *EUREKA MODEL EMERALD 125 X RAY TUBE !! K366 | ||
− | = Machine = | + | =Machine= |
Things that are more than just a simple head or sensor: airport scanner, PCB inspection, etc | Things that are more than just a simple head or sensor: airport scanner, PCB inspection, etc | ||
− | == DIY x-ray setups == | + | [[Faxitron]] |
+ | |||
+ | ==DIY x-ray setups== | ||
Ben K x-ray, CBCT "chicken" setup | Ben K x-ray, CBCT "chicken" setup | ||
− | * originally unshielded but I think is now? | + | |
− | * In CBCT mode runs automatically via arduino and thus person doesn't have to get exposed | + | *originally unshielded but I think is now? |
+ | *In CBCT mode runs automatically via arduino and thus person doesn't have to get exposed | ||
Russian fellow: http://habrahabr.ru/post/254015/ | Russian fellow: http://habrahabr.ru/post/254015/ | ||
− | * ...who gave himself acute radiation sickness. A stern warning to those not taking such a setup seriously | + | |
+ | *...who gave himself acute radiation sickness. A stern warning to those not taking such a setup seriously | ||
John M dental x-ray setup | John M dental x-ray setup | ||
− | |||
− | |||
+ | *which has about 100 lbs of lead shielding | ||
+ | *also operated remotely via ssh to laptop | ||
− | == mcmaster rotary stage replacement == | + | ==mcmaster rotary stage replacement== |
Goal: stop using my Sherline rotary stage and instead use spare CNC rotary stage (from laser machine purchase lot) | Goal: stop using my Sherline rotary stage and instead use spare CNC rotary stage (from laser machine purchase lot) | ||
Line 137: | Line 143: | ||
Controller: Rorze RD-053MS | Controller: Rorze RD-053MS | ||
− | * [[http_//www.wellforces.cn/rorze_data/rd-053ms/rd-053ms_e.pdf|Datasheet]] | + | |
− | * [http://www.rorze.com/english/Tech/controll/RD053MS.pdf Spec sheet] | + | *[[http_//www.wellforces.cn/rorze_data/rd-053ms/rd-053ms_e.pdf|Datasheet]] |
− | * Has a lot of pins labeled | + | *[http://www.rorze.com/english/Tech/controll/RD053MS.pdf Spec sheet] |
− | * Enclosed in box with cable running to the rotary table | + | *Has a lot of pins labeled |
− | * 3 per box | + | *Enclosed in box with cable running to the rotary table |
− | * Need to interface to output Centronix connector | + | *3 per box |
+ | *Need to interface to output Centronix connector | ||
The left side connections are pretty obvious: | The left side connections are pretty obvious: | ||
− | * power | + | |
− | * 18V to 40VDC | + | *power |
− | * motor phases | + | *18V to 40VDC |
+ | *motor phases | ||
Left side less so | Left side less so | ||
− | * diff1 | + | |
− | * diff2 | + | *diff1 |
− | * 4P IN | + | *diff2 |
− | * FREE | + | *4P IN |
− | * PHASE OUT | + | *FREE |
− | * ALARM OUT | + | *PHASE OUT |
+ | *ALARM OUT | ||
Summary | Summary | ||
− | * Up to 400 microsteps/step | + | |
− | * Current driven...looks like approx. 3.8mA at 5VDC? | + | *Up to 400 microsteps/step |
− | * 3.3V compatible? | + | *Current driven...looks like approx. 3.8mA at 5VDC? |
+ | *3.3V compatible? | ||
Two ways that step/direction can be configured | Two ways that step/direction can be configured | ||
Two Clock Input (2CK) (Inputs two clock pulses - CW clock pulse and CCW clock pulse) | Two Clock Input (2CK) (Inputs two clock pulses - CW clock pulse and CCW clock pulse) | ||
− | * CW+/-: Motor rotates in CW direction with a pulse current of 8 to 20mA from CW+ to CW- terminal. | + | |
− | * CCW+/-: Motor rotates in CCW direction with a pulse current of 8 to 20mA from CCW+ to CCW- terminal. | + | *CW+/-: Motor rotates in CW direction with a pulse current of 8 to 20mA from CW+ to CW- terminal. |
+ | *CCW+/-: Motor rotates in CCW direction with a pulse current of 8 to 20mA from CCW+ to CCW- terminal. | ||
One Clock Input (1CK) (Inputs clock pulse and direction (CW, CCW)) | One Clock Input (1CK) (Inputs clock pulse and direction (CW, CCW)) | ||
− | * CLK+/-: Motor rotates in CW direction with a pulse current of 8 to 20mA from CLK+ to CLK- terminal and UD input off. | + | |
− | * UD+/-: Motor rotates in CCW direction with a pulse current of 8 to 20mA from CLK+ to CLK- terminal and UD input turned ON. | + | *CLK+/-: Motor rotates in CW direction with a pulse current of 8 to 20mA from CLK+ to CLK- terminal and UD input off. |
+ | *UD+/-: Motor rotates in CCW direction with a pulse current of 8 to 20mA from CLK+ to CLK- terminal and UD input turned ON. | ||
Basically it looks like second is standard step/direction configuration | Basically it looks like second is standard step/direction configuration | ||
− | * Yep buried in later documentation: Selects clock input, Two clock input method (2CK) or Pulse & Direction input method (1CK). | + | |
+ | *Yep buried in later documentation: Selects clock input, Two clock input method (2CK) or Pulse & Direction input method (1CK). | ||
6-2 Full Step Input (4P IN +/-): Motor rotates in full step mode with a pulse current of 2 to 10mA (approx. 3.8mA at 5VDC) from “4P IN +” to “4P IN –” | 6-2 Full Step Input (4P IN +/-): Motor rotates in full step mode with a pulse current of 2 to 10mA (approx. 3.8mA at 5VDC) from “4P IN +” to “4P IN –” | ||
Line 179: | Line 192: | ||
6-3 Free Input (FREE +/-): The excitation current of motor will become 0 and a motor can be rotated by hand with a pulse | 6-3 Free Input (FREE +/-): The excitation current of motor will become 0 and a motor can be rotated by hand with a pulse | ||
current of 2 to 10mA (approx. 3.8mA at 5VDC) from “FREE+” to “FREE-”. | current of 2 to 10mA (approx. 3.8mA at 5VDC) from “FREE+” to “FREE-”. | ||
− | * NOTE: Do not turn this input ON when motor is running at high speed, this operation would | + | |
+ | *NOTE: Do not turn this input ON when motor is running at high speed, this operation would | ||
+ | |||
damage the amplifier circuits. | damage the amplifier circuits. | ||
Line 187: | Line 202: | ||
All channels as given are configured the same | All channels as given are configured the same | ||
− | * 8-1 current range: 1.5A | + | |
− | * 8-2 clock select: 1 clock | + | *8-1 current range: 1.5A |
− | * 8-3 auto current down: on | + | *8-2 clock select: 1 clock |
− | * 8-4:8-8: microstepping: 32 | + | *8-3 auto current down: on |
− | * D1: 0 | + | *8-4:8-8: microstepping: 32 |
− | * D2: 1 | + | *D1: 0 |
− | * D3: 0 | + | *D2: 1 |
− | * D4: 0 | + | *D3: 0 |
− | * D5: 1 | + | *D4: 0 |
− | * 1: to the left, 0: to the right (assuming OFF => 0) | + | *D5: 1 |
+ | *1: to the left, 0: to the right (assuming OFF => 0) | ||
Agilent PS test on CLK input while off (assuming its just a PD) | Agilent PS test on CLK input while off (assuming its just a PD) | ||
− | * 0V 3 mA (subtracted from all other values) | + | |
− | * 3.3V: 7 mA | + | *0V 3 mA (subtracted from all other values) |
− | * Just under recommended 8mA...maybe I can get away with it for now but long term need to boost it | + | *3.3V: 7 mA |
− | * 8 mA: 3.5 V | + | *Just under recommended 8mA...maybe I can get away with it for now but long term need to boost it |
− | * 5V: 13 mA | + | *8 mA: 3.5 V |
− | * They said 3.8 mA...are inputs non-uniform? | + | *5V: 13 mA |
− | * 20 mA: 6.8 V | + | *They said 3.8 mA...are inputs non-uniform? |
+ | *20 mA: 6.8 V | ||
(note to self: script a curve tracer...) | (note to self: script a curve tracer...) | ||
BBB test: | BBB test: | ||
− | * red: STEP+ to P8.13 | + | |
− | * black: STEP- to P8.1 | + | *red: STEP+ to P8.13 |
− | * white: DIR+ to P8.12 | + | *black: STEP- to P8.1 |
− | * blue: DIR- to P8.2 | + | *white: DIR+ to P8.12 |
+ | *blue: DIR- to P8.2 | ||
no response | no response | ||
try agilent supply tragging step input | try agilent supply tragging step input | ||
− | * 3.2V: no step | + | |
− | * 3.3V: step | + | *3.2V: no step |
+ | *3.3V: step | ||
Its just too close on the edge for it to work I guess | Its just too close on the edge for it to work I guess | ||
− | * This does verify I'm on the right channel | + | |
+ | *This does verify I'm on the right channel |
Latest revision as of 03:29, 4 November 2019
Useful for finding die position in packages, looking into epoxied modules, etc
- Horiba XGT-7000 X-Ray Analytical Microscope XRF w/ Processor Controller
Contents
Sensor
DIY using DSLR: https://twitter.com/FauthNiklas/status/967192093318942720
Digipan reverse engineering: https://hackaday.io/project/62710-taking-digital-xray-shots-for-cheap-300/details
Digital intraoral
Gendex GXS700 / Dexis Platinum USB sensor
Kodak / CareStream RVG 6100 USB sensor
Digital body
https://www.youtube.com/watch?v=QSVJtwehwho
- "Digital x-ray panel sensors, teardown & reverse-engineering"
- Canon CXDI-701C
Someone also mentioned Varian and Trixell
Intensifying screens
Introduction to screens (ref):
- standard
- slow
- calcium tungstate
- rare earth
- fast
- gadolinium or lanthanum
- Commercial brands: Kodak Lanex
Details on different phosphors: http://www.pocketmagic.net/x-ray-intensifying-screen/
There's a good vendor summary / cross reference chart here: [1]
I think the number following the name is generally the gain. That is a 400 screen will put out twice as much light per x-ray as a 200 screen They call this the "speed" presumably because it makes film expose faster. Chart here
Brands:
- 3M
- AGFA
- DUPONT/STERLING
- FUJI
- JPI
- KIRAN
- KODAK
- Lanex: rare earth green
- KONICA
- MCI OPTONIX
Following sections are for screens I own. Basically they were cheap on eBay
Intensifying tube
was offered a broken tube but I don't think it would have been useful
Aha! I got offered a working tube. And thus children have nightmares now
Source
Image | Vendor | Model | Type | Note |
---|---|---|---|---|
GE | 1000 | Tubehead | ||
Eureka | Emerald 125 | |||
Eureka | RA51-1.5 |
Rotating anode systems
Include:
- DUNLEE 180-00
- Rigaku Denki Rotaflex Rotating Anode X Ray 4363 F Cu Shutter Control Assembly
- RIGAKU, MICROMAX 007HF 4364F501
- Transworld 325v
- Craigslist freebie
- Varian Medical Systems RAD-99B tube
- VARIAN G-1086, Housing Type B-160H
- Varian RAD-21 VMS SAPP-150KV
- 8000-3488 UNIVERSAL UNI-MATIC 325D GENERATOR MODEL NO. 3488/3550
- GE Medical Systems AMX4 Portable X-Ray
- EUREKA DIAMOND 150 X-RAY TUBE
- EUREKA MODEL EMERALD 125 X RAY TUBE !! K366
Machine
Things that are more than just a simple head or sensor: airport scanner, PCB inspection, etc
DIY x-ray setups
Ben K x-ray, CBCT "chicken" setup
- originally unshielded but I think is now?
- In CBCT mode runs automatically via arduino and thus person doesn't have to get exposed
Russian fellow: http://habrahabr.ru/post/254015/
- ...who gave himself acute radiation sickness. A stern warning to those not taking such a setup seriously
John M dental x-ray setup
- which has about 100 lbs of lead shielding
- also operated remotely via ssh to laptop
mcmaster rotary stage replacement
Goal: stop using my Sherline rotary stage and instead use spare CNC rotary stage (from laser machine purchase lot)
Motor: Vexta PH566-B 5 phase stepper
Controller: Rorze RD-053MS
- Datasheet
- Spec sheet
- Has a lot of pins labeled
- Enclosed in box with cable running to the rotary table
- 3 per box
- Need to interface to output Centronix connector
The left side connections are pretty obvious:
- power
- 18V to 40VDC
- motor phases
Left side less so
- diff1
- diff2
- 4P IN
- FREE
- PHASE OUT
- ALARM OUT
Summary
- Up to 400 microsteps/step
- Current driven...looks like approx. 3.8mA at 5VDC?
- 3.3V compatible?
Two ways that step/direction can be configured
Two Clock Input (2CK) (Inputs two clock pulses - CW clock pulse and CCW clock pulse)
- CW+/-: Motor rotates in CW direction with a pulse current of 8 to 20mA from CW+ to CW- terminal.
- CCW+/-: Motor rotates in CCW direction with a pulse current of 8 to 20mA from CCW+ to CCW- terminal.
One Clock Input (1CK) (Inputs clock pulse and direction (CW, CCW))
- CLK+/-: Motor rotates in CW direction with a pulse current of 8 to 20mA from CLK+ to CLK- terminal and UD input off.
- UD+/-: Motor rotates in CCW direction with a pulse current of 8 to 20mA from CLK+ to CLK- terminal and UD input turned ON.
Basically it looks like second is standard step/direction configuration
- Yep buried in later documentation: Selects clock input, Two clock input method (2CK) or Pulse & Direction input method (1CK).
6-2 Full Step Input (4P IN +/-): Motor rotates in full step mode with a pulse current of 2 to 10mA (approx. 3.8mA at 5VDC) from “4P IN +” to “4P IN –”
6-3 Free Input (FREE +/-): The excitation current of motor will become 0 and a motor can be rotated by hand with a pulse current of 2 to 10mA (approx. 3.8mA at 5VDC) from “FREE+” to “FREE-”.
- NOTE: Do not turn this input ON when motor is running at high speed, this operation would
damage the amplifier circuits.
6-4 Phase Output (PHASE OUT+/-): PHASE OUT output (open collector output) is turned ON at the phase home. One pulse is put out every time the motor moves 7.2゚ in case of 0.72゚ motor. The Duty of output ON is 10%.
6-5 Alarm Output (ALARM OUT+/-): Overheating protection circuit intervenes turning ALARM output ON. (Open collector output ON)
All channels as given are configured the same
- 8-1 current range: 1.5A
- 8-2 clock select: 1 clock
- 8-3 auto current down: on
- 8-4:8-8: microstepping: 32
- D1: 0
- D2: 1
- D3: 0
- D4: 0
- D5: 1
- 1: to the left, 0: to the right (assuming OFF => 0)
Agilent PS test on CLK input while off (assuming its just a PD)
- 0V 3 mA (subtracted from all other values)
- 3.3V: 7 mA
- Just under recommended 8mA...maybe I can get away with it for now but long term need to boost it
- 8 mA: 3.5 V
- 5V: 13 mA
- They said 3.8 mA...are inputs non-uniform?
- 20 mA: 6.8 V
(note to self: script a curve tracer...)
BBB test:
- red: STEP+ to P8.13
- black: STEP- to P8.1
- white: DIR+ to P8.12
- blue: DIR- to P8.2
no response
try agilent supply tragging step input
- 3.2V: no step
- 3.3V: step
Its just too close on the edge for it to work I guess
- This does verify I'm on the right channel