https://community.nxp.com/t5/LPC-Microcontrollers/LPC54018-ADC-accuracy/m-p/884616#M35430 <HTML><HEAD></HEAD><BODY><P>Hello,</P><P></P><P>We test&nbsp;SDK_2.5.0_LPCXpresso54018\boards\lpcxpresso54018\driver_examples\adc\lpc_adc_basic\iar example for&nbsp;</P><P>LPCXpresso540xx Eval Brd Rev E. We get below result:</P><P></P><P>3.253v for Power on LPC54608 VDD pin VDD_TARGET_IC.</P><P>When input 0.156v actual value voltage, get&nbsp;adcResultInfoStruct.result 192 on channel 4, theoretical value is 0.152v=（3.253/4096 X 192）, error is 0.004v =(0.156v-0.152v).&nbsp;</P><P>When input 1.650v actual value voltage, get&nbsp;adcResultInfoStruct.result&nbsp;2048 on channel 4, <SPAN>theoretical value&nbsp;</SPAN>is 1.6265v.&nbsp;</P><P>error is 0.0235v.</P><P>When input&nbsp;1.488v actual value voltage, get&nbsp;adcResultInfoStruct.result 1856 on channel 4, <SPAN>theoretical value&nbsp;</SPAN>is 1.474v.</P><P>Error is 0.014v.&nbsp;</P><P>When input 3.253v actual value voltage, get&nbsp;adcResultInfoStruct.result&nbsp;4093 on channel 4, <SPAN>theoretical value&nbsp;</SPAN>is 3.2506v.&nbsp;</P><P>Error is 0.0024v.</P><P></P><P>We want to know why error could up to three&nbsp;<SPAN style="color: #333333; background-color: #f9f9f9;">digits<SPAN>&nbsp;</SPAN></SPAN><SPAN class="" style="color: #333333; background-color: #f9f9f9;">after<SPAN>&nbsp;</SPAN></SPAN><SPAN style="color: #333333; background-color: #f9f9f9;">the<SPAN>&nbsp;</SPAN></SPAN><SPAN style="color: #333333; background-color: #f9f9f9;">decimal<SPAN>&nbsp;</SPAN></SPAN><SPAN style="color: #333333; background-color: #f9f9f9;">point when close to 0v or close to Vdd voltage,</SPAN></P><P><SPAN style="color: #333333; background-color: #f9f9f9;">but only two digits after the decimal point from 1v to 2v voltage.&nbsp;</SPAN></P><P><SPAN style="color: #333333; background-color: #f9f9f9;">Do you have some improve method for this?</SPAN></P></BODY></HTML> Sun, 24 Feb 2019 12:04:35 GMT hansonhe 2019-02-24T12:04:35Z https://community.nxp.com/t5/LPC-Microcontrollers/LPC54018-ADC-accuracy/m-p/884616#M35430 <HTML><HEAD></HEAD><BODY><P>Hello,</P><P></P><P>We test&nbsp;SDK_2.5.0_LPCXpresso54018\boards\lpcxpresso54018\driver_examples\adc\lpc_adc_basic\iar example for&nbsp;</P><P>LPCXpresso540xx Eval Brd Rev E. We get below result:</P><P></P><P>3.253v for Power on LPC54608 VDD pin VDD_TARGET_IC.</P><P>When input 0.156v actual value voltage, get&nbsp;adcResultInfoStruct.result 192 on channel 4, theoretical value is 0.152v=（3.253/4096 X 192）, error is 0.004v =(0.156v-0.152v).&nbsp;</P><P>When input 1.650v actual value voltage, get&nbsp;adcResultInfoStruct.result&nbsp;2048 on channel 4, <SPAN>theoretical value&nbsp;</SPAN>is 1.6265v.&nbsp;</P><P>error is 0.0235v.</P><P>When input&nbsp;1.488v actual value voltage, get&nbsp;adcResultInfoStruct.result 1856 on channel 4, <SPAN>theoretical value&nbsp;</SPAN>is 1.474v.</P><P>Error is 0.014v.&nbsp;</P><P>When input 3.253v actual value voltage, get&nbsp;adcResultInfoStruct.result&nbsp;4093 on channel 4, <SPAN>theoretical value&nbsp;</SPAN>is 3.2506v.&nbsp;</P><P>Error is 0.0024v.</P><P></P><P>We want to know why error could up to three&nbsp;<SPAN style="color: #333333; background-color: #f9f9f9;">digits<SPAN>&nbsp;</SPAN></SPAN><SPAN class="" style="color: #333333; background-color: #f9f9f9;">after<SPAN>&nbsp;</SPAN></SPAN><SPAN style="color: #333333; background-color: #f9f9f9;">the<SPAN>&nbsp;</SPAN></SPAN><SPAN style="color: #333333; background-color: #f9f9f9;">decimal<SPAN>&nbsp;</SPAN></SPAN><SPAN style="color: #333333; background-color: #f9f9f9;">point when close to 0v or close to Vdd voltage,</SPAN></P><P><SPAN style="color: #333333; background-color: #f9f9f9;">but only two digits after the decimal point from 1v to 2v voltage.&nbsp;</SPAN></P><P><SPAN style="color: #333333; background-color: #f9f9f9;">Do you have some improve method for this?</SPAN></P></BODY></HTML> Sun, 24 Feb 2019 12:04:35 GMT https://community.nxp.com/t5/LPC-Microcontrollers/LPC54018-ADC-accuracy/m-p/884616#M35430 hansonhe 2019-02-24T12:04:35Z https://community.nxp.com/t5/LPC-Microcontrollers/LPC54018-ADC-accuracy/m-p/884617#M35431 <HTML><HEAD></HEAD><BODY><P>Hi, Hanson,</P><P>Sorry for the delay.</P><P>I have contacted AE team, they said they had tested the ADC performance and answered your question.</P><P>BR</P><P>XiangJun Rong</P></BODY></HTML> Tue, 19 Mar 2019 08:30:47 GMT https://community.nxp.com/t5/LPC-Microcontrollers/LPC54018-ADC-accuracy/m-p/884617#M35431 xiangjun_rong 2019-03-19T08:30:47Z