ANALOG NA'urorin CN-0586 Daidaitaccen Babban Voltage Bipolar Analog Fitar Module Jagorar Mai Amfani

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1 ANALOG NA'urorin CN-0586 Daidaitaccen Babban Voltage Bipolar Analog Output Module

2 Ƙayyadaddun bayanai

7 Takardu / Albarkatu

7.1 Magana

ANALOG NA'urorin CN-0586 Daidaitaccen Babban Voltage Bipolar Analog Output Module

Ƙayyadaddun bayanai

Sunan samfur: Cikakken, Quad, 16-Bit, Serial Input, Unipolar/Bipolar Voltage fitarwa DAC
Shigar da Voltage Range: 24 zuwa 220 V

Fitarwa Voltage Range: Har zuwa 200 V
Ikon fitarwa na yanzu: Up ku 20mA

Kewaye daga ƙirar ƙira na Lab® an ƙirƙira su kuma an gwada su don haɗawa da tsari mai sauri da sauƙi don taimakawa warware ƙalubalen ƙira na analog, gaurayawan sigina, da RF na yau. Don ƙarin bayani da/ko goyan baya, ziyarci www.an-alog.com/CN0586.

Na'urorin Haɗawa/An Magana

AD5754R	Cikakken, Quad, 16-Bit, Serial Input, Unipolar/Bipolar Voltage fitarwa DAC
Saukewa: ADHV4702-1	24V zuwa 220V Daidaitaccen Aiki Amplififi
LT8365	Low I_Q Canjin Ƙarfafa/SEPIC/Inverting tare da 1.5 A, 150V Sauyawa
Farashin 4151	5 kV, 7-Channel, SPIsolator™ Dijital masu ware masu keɓancewa don SPI

Precision High Voltage Bipolar Analog Output Module

TAIMAKON KIMANIN DA TSIRA

Kwamitocin tantancewa
CN-0586 Hukumar Ƙimar Wuta (EVAL-CN0586-ARDZ)

Platform Nunin Tsarin (EVAL-SDP-CK1Z)
Zane da Haɗin kai Files

Tsarin tsari, Layout Files, Bill of Materials, Simulators, Exampda Shirye-shiryen

AIKIN GIDAN GASKIYA DA AMFANIN
Tare da ci gaba da ci gaban tsarin lantarki, filin gwajin lantarki da aunawa yana ci gaba da buƙata da sauri, mafi daidaici, da ƙarfin gwaji. A cikin wannan shimfidar wuri, madaidaicin high-voltage mafita suna taka muhimmiyar rawa wajen samar da ingantacciyar kuzari don kimanta kasuwancin zamani na gaba, masana'antu, ko aikace-aikacen kera motoci, nunin ruwa-crystal nuni (LCD) da fa'idodin fitilun haske-emitting diode (OLED) don gwajin na'urori masu kaifin baki, daidaitaccen ƙima. silicon photodiodes (SiPDs) ko avalanche photodiodes (APDs) don gano haske da jeri (LiDAR) a cikin duka motoci da aikace-aikacen masana'antu, matsayi na piezoelectric da actuation, tsarin microelectromechanical (MEMs) sarrafa madubi, da ƙari.

Analog na'urorin suna ba da mafita iri-iri da samfuran da ke kewaye da babban voltage aikace-aikace da wannan tunani zane ne kawai digo a cikin guga!

Da'irar da aka nuna a hoto na 1 daidaitaccen nau'in bipolar high-voltage-drive mafita, tare da har zuwa 200 V fitarwa tazara, da dijital keɓewar dubawa. Wannan bayani yana amfani da tashoshi 4, 16-bit madaidaicin dijital-zuwa-analog Converter (DAC) da madaidaicin 220V amplifier a cikin wani tsari mai iya samar da fitarwar bipolar jeri daga tushen unipolar. Hakanan an haɗa maganin wutar lantarki akan jirgin don samar da +110 V da -110 V daga wadatar shigarwar 15 V guda ɗaya don taimakawa cikin saurin kimanta wannan ƙirar ƙira. Samar da duk abubuwan haɗin siginar sigina a cikin hukumar tantancewa yana sauƙaƙe ƙirar ƙira mai ƙarfitage fitarwa drive tsarin.

Kayan aikin kimantawa yana haɗin gwiwa tare da SDP-K1, wanda ke ba da damar haɗin kai cikin sauƙi tare da sauran allon kula da tushen Arduino-UNO. Ana samun ƙirar software a cikin bincike, sarrafawa, da kuma kimantawa (ACE) software azaman toshewa, yana ba da sauƙin shigarwa da amfani. Filogin yana sadarwa tare da allon sarrafawa ta hanyar buɗaɗɗen tushen firmware wanda aka ɗora a cikin SDP-K1, yana ba da damar daidaitawa da sauri zuwa tsarin ƙarshen mai amfani da dandamali.

Injiniyoyin Analog na'urorin sun ƙirƙira da gina da'irori daga da'irori na Lab™ daga Na'urorin Analog. An yi amfani da daidaitattun ayyukan injiniya a cikin ƙira da gina kowane da'ira, kuma an gwada aikinsu da aikinsu kuma an tabbatar da su a cikin yanayin dakin gwaje-gwaje a yanayin zafin ɗaki. Koyaya, kai kaɗai ke da alhakin gwada da'irar da tantance dacewarta da dacewarta don amfani da aikace-aikacenku. Don haka, a cikin wani hali, na'urorin Analog ba za su zama abin dogaro ga kai tsaye, kai tsaye, na musamman, na faruwa, majiyyata, ko lahani na ladabtarwa ba saboda kowane dalili duk abin da ke da alaƙa da amfani da kowane da'irori daga da'irar Lab. (Ci gaba a shafi na ƙarshe)

BAYANIN KIRKIRI

CN0586 yana da babban ƙarfin wutatage sarkar siginar direba ta hanyar haɗin daidaitaccen DAC da babban voltage madaidaicin aiki amplififi. Wannan zane zane yana ba da babban voltage kewayon fitarwa har zuwa 200 V kuma tare da maganin wutar lantarki, EVAL-CN0586ARDZ na iya samar da +/-100 V fitarwa daga wadatar waje na 15 V.

Hoto na 1 yana nuna haɗin tashoshin fitarwa na AD5754R guda biyu na DAC (A da B) zuwa babban vol.tage amplifier, ADHV4702-1, wanda aka saita tare da masu adawa da waje don samar da riba na 20. Ana ba da aikin canja wurin fitarwa na wannan kewaye ta hanyar ma'auni:

inda:

DA shine lambar decimal da aka loda zuwa DAC Channel A (Babban DAC).

DB shine lambar decimal da aka loda zuwa DAC Channel B (Offset DAC).
Riba shine ma'aunin ma'auni don nau'in fitarwa daban-dabantage jeri na DACs. "2" don +5 V, "4" don +10 V.

VREF shine voltage reference tare da maras muhimmanci darajar 2.5 V.
20 HV ampfidda stage riba.

Saitin kewayon fitarwa na Babban DAC yana ƙayyade iyakar fitarwa zuwa ƙarshen da'irar yayin da ƙimar DAC ta Offset ke ƙayyade tsakiyar wurin jimillar fitarwa. Tare da daidaitawa masu tsayayyar saitin riba na waje akan ADHV4702-1, kewayawa na iya samar da babban voltage fitarwa jeri zuwa 200 V da kuma ikon tuki har zuwa 20 mA.

Babban voltage za a iya ƙididdige kewayon fitarwa da babba da ƙananan iyakoki ta amfani da dabaru masu zuwa:

HVOUTSPAN = VMAINFS - VMAINZS × 20 (2)
HVOUTUPPER = VMAINFS - VOFFSET × 20 (3)
HVOUTLOWER = VMAINZS - VOFFSET × 20 (4)

inda:

VMAINFS shine voltage fitarwa na babban DAC tare da cike lambar sikelin.
VMAINZS shine voltage fitarwa na babban DAC tare da lambar sifili da aka loda.
VMAINFS shine voltage fitarwa na babban DAC tare da cike lambar sikelin.
VOFFSET shine voltagRahoton da aka ƙayyade na DAC.

Babban voltage kewayon fitarwa da aka nuna a cikin Tebu 1 haɗuwa ne na Babban DAC na AD5754R da daidaitawar DAC kuma ana samun goyan bayan EVAL-CN0586-ARDZ tare da samar da wutar lantarki ta yanayin sauyawa.
Idan duka Babban DAC da Offset DAC an saita su zuwa kewayon +10 V, EVAL-CN0586-ARDZ na iya tallafawa duk saitin kewayon fitarwa na HV da aka zayyana a cikin Tebura 1.

Tebur 1. Fitar da HV

LTSPICE Simulation

Za'a iya kwatanta ƙirar ƙira da sauri a cikin LTSpice ta amfani da kewayawa a cikin Hoto 2. A wannan yanayin, babban vol.tage ampAna kwaikwayar da'irar lifier yayin da ake maye gurbin abubuwan tashar DAC tare da ingantaccen voltage kafofin. Tushen V1 yana aiki azaman DAC A ko Babban DAC yayin da tushen V2 ke aiki azaman DAC B ko Offset DAC.

Saitin umarnin kayan yaji yana saita zazzagewar DC na V1 (Main DAC) a cikin kewayon 10 V wanda yayi daidai da tazarar 200 V. A halin yanzu, ana gudanar da wannan simulation akan ƙimar DC daban-daban na V2 (Offset DAC), wanda ya haifar da 200 V da yawa. Ƙirƙiri filaye a cikin matakai daban-daban, kamar yadda aka nuna a hoto 3.

kwaikwayo files suna samuwa akan shafin albarkatun ƙira.

SIFFOFIN DAC
Babban ɓangaren ƙirar shine AD5754R, quad, 16-bit, shigarwar serial, vol.tage fitarwa dijital-to-analog Converter (DAC). DAC ya ƙunshi guntu 5 ppm/⁰C 2.5V tunani kuma yana da kewayon fitarwa da za a iya zaɓe na software na +5 V, +10 V, +10.8 V, +/-5 V, +/- 10 V, da +/- 10.8 V. Don kewayon fitarwa mai cikakken ma'auni, ana sarrafa DAC tare da samar da wutar lantarki mai dualtage da +/-15V. A cikin wannan aikace-aikacen, +5 V da +10 V kawai ana amfani da kewayon fitarwa.

AD5754R ana sarrafa ta ta amfani da keɓancewar siriyal mai jituwa tare da keɓancewar siginar (SPI), sarrafa siginar dijital (DSP), da ƙa'idodin dubawar microcontroller, kuma yana aiki a iyakar agogo 30 MHz. DAC tana da fil I/O, BIN/2SCMP, don zaɓar tsarin shigar da lambar don rubutawa zuwa rijistar DAC. Don firmware da aka yi amfani da shi a cikin wannan ƙirar tunani, an zaɓi lambar binary.
Siffar DAC da aka yi amfani da ita a cikin wannan ƙira ita ce CLR asynchronous, wanda ke yin amfani da ƙananan fil/CLR mai aiki don sake saita DAC zuwa ko dai sifili ko lambar tsakiya. Kunna bayyananne (CLR) yana saita duk abubuwan tashar DAC zuwa sanannen jihar da ake so mai amfani don sake saitin tsarin.

HV AMPRAYUWA
Babban-voltage direba a ƙarshen siginar siginar shine ADHV4702-1. Wannan na gaba-tsara aiki amplifier daga Ana-log Devices yana ba da daidaitaccen aiki tare da 1 mV shigar da diyya, 170 dB bude madauki riba, da 160 dB gama-gari ripple ƙin yarda yayin aiki tare da +/-110 V asymmetrical kayayyaki ko har zuwa 220 V guda wadata da fitarwa na yau da kullun. halin yanzu 20mA. ADHV4702-1 kuma yana ba da kyakkyawan aiki mai ƙarfi tare da ƙaramin bandwidth na sigina na 10 MHz da ƙimar kashe 74 V/μs. Yana da fasalulluka aminci akan guntu irin su sa ido na thermal da kashewa, mai mahimmanci ga babban ƙarfin wutatage aikace-aikace.

MAGANIN WUTA HV
The on-board high voltage ikon dogo ana samar da LT8365 low quiescent halin yanzu, halin yanzu yanayin DC/DC Converter tare da 1.5 A, 150 V na ciki canji, aiki daga 2.8 V zuwa 60 V shigar. LT8365 yana fasalta keɓaɓɓen keɓaɓɓen ƙirar ra'ayi guda ɗaya, yana mai da shi ikon haɓakawa, mai jujjuyawar inductor mai ƙarewa guda ɗaya (SEPIC), ko jujjuya saiti. A cikin wannan ƙirar ƙira, ana haɗa nau'ikan LT8365 guda biyu don samar da jeri daban-daban don tabbataccen ƙarfi da mara kyau.tage fitarwa dogo.

Akwai nau'ikan LT8365 guda biyu akan jirgin EVAL-CN0586-ARDZ wanda aka saita don samar da babban volt mai dual.tage kayan da ake buƙata ta babban voltage direba. Maɓalli yana ba da damar sauƙin canji na babban voltage abubuwan samar da kayayyaki, kamar yadda aka nuna a Tebura 2. Koma ga tsari don ƙarin bayani.

Muhimmin bayanin kula: Saita abubuwan fitarwa na HV kafin a ba da wutar lantarki zuwa allon don gujewa yuwuwar lalacewa ga mai amfani da kewayen kan-jirgin.

Tebur 2. Ƙimar Samar da Wuta ta HV

S1/HV VCC/HV VSS

Pos A	+205 V	0V (an kashe)
Pos B (tsoho)	+110 V	-110 V

CUSTOM HV FITARWA
EVAL-CN0586-ARDZ yana ba da matakan fitarwa na HV da aka ƙaddara, kamar yadda aka tsara a cikin Table 2. Tare da sassaucin DAC wanda ke sarrafa fitarwar HV, yana da mahimmanci a yi la'akari da inganta samar da HV don kewayon aiki na manufa. Bayanin da'ira yana jagorantar lissafin kewayon fitarwa.

Don misaliample, idan maƙasudin fitarwa na HV shine -20 V zuwa 80 V tare da nauyin 10 mA, to samun wadatar +/-100 V ba ta da amfani. Har zuwa 800mW na wutar lantarki kawai direban HV ya bace. A wannan yanayin, ana iya haskakawa cewa ADHV4702-1 kawai yana da buƙatun ɗaki na 2 V. Wannan yana nufin ƙarancin ɗaki na 2V akan kowane dogo wadata ana buƙatar don ingantaccen maganin wuta.

HANYOYIN TSIRA

Warewa Dijital
A cikin high-voltage aikace-aikace, yana da mahimmanci don kare yankin da ke aiki a cikin ƙananan ƙananantage yankin. A cikin wannan ƙirar ƙira, mai keɓewar dijital yana kare allon mai sarrafawa, EVAL-SDP-CK1Z, idan akwai babban vol.tage kurakurai a cikin sashin direba. ADUM4151 shine mai keɓewar dijital wanda aka inganta don keɓance hanyoyin musaya na gefe (SPI) wanda zai iya samar da ƙimar agogon SPI har zuwa 17 MHz tare da 35 kV/μs rigakafi na wucin gadi. ADUM4151 kuma yana ba da ƙarin ƙarin ƙananan tashoshi keɓaɓɓen adadin bayanai guda uku don sarrafa dijital mai zaman kansa. Na'urar tana bin ka'idodin UL, CSA, da VDE don aminci da amincewar tsari. Duba sashin Bambance-bambance gama gari don madadin ADUM4151.

Saukewa: AD5754R
HV amplifier, ADHV4702-1, za a iya saita don iyakar fitarwa voltage na 220 V. Don kare fitarwa na AD5754R, an ƙara 2.5 kΩ resistor da aka ƙare zuwa ƙasa zuwa Offset DAC, Channel B, kamar yadda aka nuna a cikin Hoto 4. Wannan kariya ta kariya, tare da 50 kΩ da 2.5 kΩ samun saitin saitin. resistors (da nau'ikan kayayyaki biyu na AD5754R), yana tabbatar da cewa ba a taɓa keta madaidaicin ƙimar abubuwan DAC ba.
Tare da haɗin resistors, voltage sharing aka kafa, tabbatar da voltage a cikin madauki na amsa hv, kamar yadda aka gani a cikin fitowar DAC, baya wuce |220| x 2.5 / (2.5k + 2.5k + 50
k) = | 9.1V Disadvan dayatage na wannan ƙayyadaddun shine cewa fitarwa na DAC yana cinye wuta ta hanyar 2.5 kΩ kariya mai kariya, yana haifar da wasu dumama kai.

Mai tsayayyar kariyar 2.5 kΩ baya shafar HV ampriba riba. Ana iya amfani da ƙananan ƙima amma ana buƙatar samun takamaiman ma'auni tsakanin voltage kariya da kuma amfani a halin yanzu, da kuma dumama kai jawo ta resistor.

Kashe software

EVAL-CN0586 yana da fasalin kashewa mai sarrafa software wanda ke amfani da jerin umarnin firmware da aikin "Asynchronous Clear" na AD5754R DAC. Kamar yadda aka gani a Hoto 1, an haɗa ƙarin fitarwa na DAC (Channel D) zuwa fil ɗin rufewa ADHV4702-1. Jerin umarnin firmware yana saita DAC Channel D low, yadda ya kamata yana rufe fitarwa na HV amplififi. Hakanan yana saita abubuwan da ake fitarwa na Main (Channel A) da Offset (Channel B) DACs zuwa nau'in fitarwa iri ɗaya.tage darajar, yana haifar da fitowar 0 V.
Ana cire fil ɗin / SD ta tsohuwa kuma yana goyan bayan dabaru na 2.5 V don haka za'a iya maye gurbin DAC ta hanyar shigarwa/fitarwa na gaba ɗaya (GPIO).

Rufewar zafin jiki
Tsarin zai iya guje wa lalatawar aiki saboda aiki fiye da madaidaicin ƙayyadaddun yanayin zafin jiki ta hanyar yin amfani da yanayin rufewa da yanayin kula da yanayin zafi na ADHV4702-1. Don aiwatar da wannan, ana iya ɗaure fil / SD ɗin zuwa fil ɗin TMP ta amfani da jumper na kan jirgin, JP4, wanda ke ba da damar TMP fil vol.tage don tabbatar da kashe na'urar. Koma zuwa takaddar bayanan ADHV4702-1 don ƙarin cikakkun bayanai kan wannan fasalin.
Lokacin da aka zaɓi rufewar zafin jiki ta amfani da JP4, DAC-con-trolled (software) rufewar HV ampnaƙasasshiya Ba a shafar aikin share fage.

Wutar Sake saitin (POR)
AD5754R yana da kewayar POR wanda ke tabbatar da DAC tana yin rijistar wutar lantarki wanda aka ɗora da lambar sifili kuma duk tashoshi na DAC suna cikin yanayin saukar wuta. Wannan yana nufin duk abubuwan shiga zuwa da'irar direban HV kuma an saita fitowar HV zuwa 0 V kuma.

Kariya Rate
Tare da ci gaba da aiki a ko kusa da cikakken bandwidth na ADHV4702-1, akwai haɓakar samar da kayan aiki wanda ke rinjayar yanayin junction, TJ, na na'urar. A cikin wannan ƙira, shigar da shawarar da aka gyara clampHanyar yin amfani da BAV1999LT1G an karɓa. Clamping da bambancin shigarwa voltage ta wannan hanyar dampens da kashe kudi, da kuma rage babban sigina bandwidth na ADHV4702-1, amma kare shi a tsauri aiki.

Wurin Safe Aiki (SOA)
Yana da mahimmanci a cikin high-voltage aikace-aikace don fahimtar SOA na na'ura kamar yadda yake wakiltar ikon sarrafa na'urar. A cikin CN0586, ADHV4702-1 ne ke kula da stage don haka SOA ɗinta dole ne ta kasance a hankaliviewed. Yin aiki a manyan mitoci, ga misaliample, yana ƙara yawan amfani da na'urar a halin yanzu, wanda kai tsaye yana ƙara yawan zafin jiki, TJ. Duba takardar bayanan samfur don ƙarin bayani.

Makircin da ke sama yana nuna ADHV4702-1's DC SOA kuma yana nuna madaidaicin fitarwa na yanzu tare da vol.tage fadin fitarwa stage na op-amp. Lokacin aiki a DC, na'urar tana ɓatar da ikon da ke fitowa daga bambancin fitowar voltage da wadata, da kuma halin yanzu da ake zana da lodi. Yankunan da ke ƙarƙashin lanƙwan suna nuna iyakoki don amintaccen aiki don kula da TJ <150C.

Don ƙididdige ƙididdigar zafin mahaɗin, yi amfani da wannan dabara:

VSYS shine jimillar wadatar da |VCC-VSS| ke nunawa.
ISYS ita ce wutar lantarki ta na'urar.
θJA ita ce mahaɗa zuwa juriya na yanayi na ɓangaren.

TA shine yanayin yanayin da na'urar ke aiki.

Duk madaidaicin SOA da θJA na na'ura duka sigogi ne na musamman ga yanayin da aka gwada samfurin. Yana da kyau aikin ƙira don samun juriya yayin ƙididdige amfani da waɗannan sigogi.

Kasa da Warewa
Kamar yadda aka tattauna a cikin sassan da suka gabata, CN0586 tana amfani da keɓantaccen dijital don kare allon sarrafawa, PC, da sauran abubuwan da aka yi niyya don sarrafa dijital. Waɗannan na'urori galibi ana ƙare su zuwa ƙasan ƙasa. Don kiyaye ƙayyadaddun kariyar, ana ba da shawarar cewa kayan waje da ake amfani da su don sarrafa EVAL-CN0586-ARDZ ya kamata su kasance suna iyo ko samar da wani keɓantacce zuwa ƙasa.

An kuma tsara PCB don sauƙin gane babban voltage yanki daga yanki na dijital, kamar yadda aka gani a cikin Hoto 7. Hakanan ana kiyaye yankin HV ta hanyar murfin polycarbonate a saman da madaidaicin sutura a ƙasa, haɓaka amincin mai amfani.

bambance-bambancen na kowa

Wannan sashe yana zayyana bambance-bambancen gama-gari waɗanda za a iya amfani da su a cikin wannan ƙirar tunani.
Don DAC, ana buƙatar mafi ƙarancin tashoshi biyu don sarrafa babba da kashewa. Ƙananan bayani na DAC, AD5689R, 16-bit, dual compact voltage fitarwa DAC, tare da tunani na ciki za a iya la'akari. Yana ba da daidaito iri ɗaya amma a cikin ƙaramin sawun 3 mm x 3 mm.
Don tsarin mafi girma, AD5676R, 16-bit, 8-tashar DAC shine mafi dacewa. Wannan na'urar kuma tana ba da bayanin akan allo kuma ta zo cikin ƙaramin ~2mm x 2 mm WLCSP kunshin.

Bambance-bambancen direban HV: don mafi girman buƙatun tuƙi na yanzu, LTC6090, zaɓin dogo zuwa dogo 140 V.amp, ana iya amfani dashi azaman madadin. Ko da yake matsakaicin voltage kewayon an rage, zai iya samar da har zuwa 50 mA na drive halin yanzu zuwa manufa load.
Don ingantaccen bayani, AD8460 yana da ikon isar da tazarar fitarwa na 80 V, 1 A ci gaba da tafiyar da halin yanzu, 1.8 kV / μs kashe adadin a cikin nauyin 1000 pF, da 1 MHz na direban HV na bandwidth, wanda aka haɗa tare da 14- bit high-gudun DAC. Wannan “bits in, power out” shima yana zuwa tare da fasalulluka na dijital kamar ginanniyar ingantacciyar igiyar igiyar ruwa (AWG), halin yanzu na shirye-shirye na dijital, vol.tage da kula da kuskuren thermal, da ƙari! Duba takardar bayanan samfur.

ADHV4702-1 kanta kuma ana iya gyaggyarawa don samar da mafi girma na yanzu. Hoto 8 yana nuna ƙayyadaddun ƙayyadaddun ƙayyadaddun abubuwan da ke ƙara ƙarfin tuƙi na yanzu na kowane amplififi. Yin amfani da tsayayyen ribar haɗin kai stage, asalin ampAna kiyaye madaidaicin iyawar aikin lifi yayin da ake haɓaka ƙayyadaddun abubuwan sarrafa na'urori masu hankali.

Hoto 8. ADHV4702-1 Babban Tsarin Fitar da Fitowa na Yanzu
Dangane da maganin wutar lantarki, LT8365 yana ba da fitarwa voltages na har zuwa +/-420 V tare da amfani da haɓakawa da voltage doubler sanyi. Hoto na 9 an ɗauko shi daga ɗaya daga cikin aikace-aikace na yau da kullun a cikin takardar bayanan samfurin.

KWANKWASO DA GWAJI
An haɗe EVAL-CN0586-ARDZ tare da EVAL-SDP-CK1Z STM32F469NIH6 Arm® Cortex®-M4 na tushen microcontroller board tare da na'urorin dijital da ake samu akan Arduino® masu dacewa da kai. Don cikakken saitin software da hardware da sauran mahimman bayanai, koma zuwa CN0586 jagorar mai amfani.

KAYAN AKE BUKATA

Saukewa: EVAL-CN0586-ARDZ

EVAL-SDP-CK1Z
+/-15V Samar da Wutar Lantarki
PC tare da Microsoft Windows 10 OS ko Mafi girma

SAI KYAUTA DA GWAJI

Tabbatar an saita masu tsalle da sauyawa zuwa matsayi na asali, kamar yadda aka tattauna a cikin jagorar mai amfani. Haɗa hukumar tantancewa zuwa hukumar SDP-K1.
Haɗa kayan wutar lantarki na waje +/-15V zuwa P1, kamar yadda aka nuna a Hoto 10. Tabbatar cewa an haɗa murfin allo don aminci sannan kunna kayan wuta.

Da zarar allon ya kunna, haɗa kebul na Nau'in C na USB tsakanin allon SDP-K1 da PC. Don tabbatar da haɗin kai mai nasara, nemi LED DS2 tare da alamar SYS PWR akan allon SDP-K1. Idan LED yana kiftawa ja, to ana iya samun wasu batutuwa.
Gudanar da aikace-aikacen ACE. A cikin taga "Fara" na ACE,
EVAL-CN0586-ARDZ ya kamata ya bayyana a cikin sashin "Haɗe da Hardware", kamar yadda aka nuna a hoto 11.
- Don saitin farko na farko, ACE ya nemi shigar da direban plugin don CN0586.
- Idan hardware na EVAL-CN0586-ARDZ bai bayyana a cikin kayan aikin da aka makala ba, sake saita wutar lantarki, haɗin PC, da software na ACE.
Danna plugin sau biyu don buɗe allon view, kamar yadda aka nuna a hoto na 12.
Zaɓi abin da ake so "HV Output Range". Saita "HV Out State" zuwa "An kunna" kuma shigar da ƙimar fitarwa ta HV da ake so.

Hakanan za'a iya amfani da Python don samar da alamu na al'ada ko ƙirar igiyoyi tare da EVAL-CN0586-ARDZ. Hoto na 13 da Hoto na 14 suna nuna wasu sample waveforms da aka samar ta amfani da Python examples kunshe a cikin zane fileFarashin CN0586. Koma jagorar mai amfani don umarni kan yadda ake saita Python ta amfani da PYADI-IO.

KARA KOYI

Kunshin Tallafi na ƙira CN0586:
Bayanan Bayani na CN0586
ACE Shafin Gida

Py-ADI IIO Wiki
Py-ADI II Github

BAYANIN DATA DA HUKUMOMIN KIMIYYA

CN-0586 Hukumar Ƙimar Wuta (EVAL-CN0586-ARDZ)
Platform Nunin Tsarin (EVAL-SDP-CK1Z)
Bayanan Bayani na AD5754R

Bayanan Bayani na ADHV4702-1
Bayanan Bayani na ADUM4151
Takardar bayanan LT8365

TARIHIN BAYA
6/2024—Bita na 0: Sigar Farko

Tsanaki ESD
ESD (electrostatic fitarwa) na'ura mai mahimmanci. Na'urori masu caji da allunan kewayawa suna iya fitarwa ba tare da ganowa ba. Ko da yake wannan samfurin yana fasalta haƙƙin mallaka ko na'urorin kariya na mallakar mallaka, lalacewa na iya faruwa akan na'urorin da ke ƙarƙashin ESD mai ƙarfi. Don haka, ya kamata a ɗauki matakan da suka dace na ESD don guje wa lalacewar aiki ko asarar aiki.

Kewaye daga da'irori na Lab an yi niyya ne kawai don amfani tare da samfuran Analog na'urorin kuma mallakin hankali ne na Na'urorin Analog ko masu lasisin sa. Yayin da zaku iya amfani da da'irori daga da'irori na Lab a cikin ƙirar samfur ɗin ku, babu wani lasisi da aka bayar ta hanyar ma'ana ko akasin haka ƙarƙashin kowane haƙƙin mallaka ko wasu kayan fasaha ta aikace-aikace ko amfani da da'irori daga da'irar Lab. An yi imanin bayanan da na'urorin Analog suka samar daidai ne kuma abin dogaro ne. Koyaya, ana ba da da'irori daga da'irar Lab "kamar yadda yake" kuma ba tare da garanti na kowane nau'i ba, bayyananne, bayyananne, ko na doka gami da, amma ba'a iyakance shi ba, kowane garantin ciniki, rashin cin zarafi, ko dacewa don wata manufa kuma Babu wani alhaki da na'urorin Analog suka ɗauka don amfani da su, ko wani cin zarafi na haƙƙin mallaka ko wasu haƙƙoƙin ɓangare na uku waɗanda zai iya haifar da amfaninsu. Na'urorin Analog suna da haƙƙin canza kowane da'irori daga da'irori na Lab a kowane lokaci ba tare da sanarwa ba amma ba shi da alhakin yin hakan.

analog.com

FAQ

Tambaya: Menene shigarwar voltagda kewayon samfurin?
- A: Shigar voltagMatsakaicin iyaka shine 24 V zuwa 220 V.
Tambaya: Menene matsakaicin fitarwa voltagda goyon baya?
- A: Samfurin na iya tallafawa fitarwa voltagkarfin har zuwa 200 V.

Takardu / Albarkatu

ANALOG NA'urorin CN-0586 Daidaitaccen Babban Voltage Bipolar Analog Output Module [pdf] Jagorar mai amfani
AD5754R, ADHV4702-1, LT8365, ADUM4151, CN-0586 Daidaitaccen High Vol.tage Bipolar Analog Output Module, CN-0586, Daidaitaccen Babban Voltage Bipolar Analog Output Module, Babban Voltage Bipolar Analog Output Module, Bipolar Analog Output Module, Analog Output Module, Fitar Module, Module

Magana

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