12141000

**Capacitive Touch Display 10.1" DSI** Datasheet 

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**----- Start of picture text -----**<br>
TFT MODULE SPECIFICATION<br>**----- End of picture text -----**<br>


## EF J]Riverd 

## RVT101HVDNWC00-B V1.1A 

## MIPI DSI, IPS 10.1" LCD TFT DATASHEET 

Rev.1.1 2025-08-25 

|**ITEM**<br>**CONTENTS**<br>**UNIT**<br>~~ee~~|**ITEM**<br>**CONTENTS**<br>**UNIT**<br>~~ee~~|**ITEM**<br>**CONTENTS**<br>**UNIT**<br>~~ee~~|
|---|---|---|
|LCD Type<br>~~ee~~|TFT/Transmissive/NormallyBlack/IPS<br>~~ee~~|/<br>~~ee~~|
|Size|10.1|Inch|
|ViewingDirection|Free|/|
|Outside Dimensions (W x H x D)|257.96 x 168.60 x 12.66|mm|
|Active Area (W x H)|216.96 x 135.60|mm|
|Pixel Pitch (W x H)|0.1695 x 0.1695|mm|
|Resolution|1280 x 800|/|
|Brightness|850|cd/m2|
|Color Depth|16.7 M|/|
|Pixel Arrangement|RGB Vertical Stripe|/|
|Driver IC of Board|SN65DSI83|/|
|Interface|MIPI DSI|/|
|EEPROM Memory Size|2-Kbit|Mb|
|Host Connector|ZIF 34 pins, 0.5mm pitch, down-side contact|/|
|With/Without Touch|With Projected Capacitive Touch Panel|/|
|CTP Driver|ILI2132A|/|
|Supply Voltage for Module|5.0|V|
|Bonding Technology|Optical Bonding|/|
|Weight|456|g|



**Note 1.** RoHS compliant 

**Note 2.** LCM weight tolerance: ± 5%. 

**RVT101HVDNWC00-B V1.1A** 

## **REVISION RECORD** 

|**REV NO.**|**REV DATE**|**CONTENTS**|**REMARK**<br>**S**|
|---|---|---|---|
|1.0|2023-11-15|Initial release||
|1.1|2025-08-25|Module PN update from V1.0A to V1.1A<br>1. Anti-UV Ink+ Anti OCA for Touch Panel assembly<br>2. PCB laminate update to PCB_101TRDXDSI_REV1.2<br>_Note: A 100pF capacitor has been added on the INT line._<br>_This change improves signal integrity and robustness,_<br>_with no impact on normal functionality._||



Page **2** of **16** 

© 2025 Riverdi 

www.riverdi.com 

**RVT101HVDNWC00-B V1.1A** 

## **CONTENTS** 

|2.|**CONTENTS**<br>2.|
|---|---|
|1.|REVISIONRECORD................................................................................................................................... 2|
|2.|CONTENTS ...................................................................................................................................................... 3|
|3.|MODULE CLASSIFICATION INFORMATION ............................................................................... 4|
|4.|ASSEMBLY GUIDE ...................................................................................................................................... 5|
||4.1<br>UXTOUCH ASSEMBLY...ccsssesssssssssssssnescsssnescsssuscssnsecessnsesessusccsssnsccessuscesssnscessnnscessnnsesssnuesessnnesessneeses|
|5.|MODULE DRAWING ................................................................................................................................. 6|
|6.|ABSOLUTE MAXIMUM RATINGS ....................................................................................................... 7|
|7.|ELECTRICAL CHARACTERISTICS ...................................................................................................... 7|
|8.|BACKLIGHT ELECTRICAL CHARACTERISTICS .......................................................................... 8|
|9.|ELECTRO-OPTICAL CHARACTERISTICS ....................................................................................... 8|
|INTERFACES DESCRIPTION .......................................................................................................... 10<br>10.||
||VOT<br>J) CONNECCOL eeeeeeesseesesstesseesseesseessesssesneesseessecsuesseesueessesssesueesuessuesssesueesuessueesesseessessueesesseesseesueeserseeLO|
|11.|DIAGRAM BLOCK ..................................................................................................................................11|
|12.|TFT TIMING CHARACTERISTICS ................................................................................................... 12<br>12.|
||V2.1<br>TIMING TaDC....ceesssssesscssnccsssneccessuscsessusccessuscessnuscessuscessuscsessuecesssusecsssnsceesnuscessuueeessnnecessneesessneesess|Z|
|13.|CAPACITIVE TOUCH SCREEN PANEL SPECIFICATIONS .............................................. 12<br>13.|
||V3.1<br>Mechanical CharacteristiCs.....ccssssssssssescsssssssssssescssssessssnscssssnscesssnsccsssnsccsssncesssneesssnesessneeeessIZ|
||V3.2<br>Electrical<br>CNArACTETISTICSoeeecsssesssssssescsssseccessesccssssecessssccessnscesssnscesssnscesssnscesssncesssnscessnneeessneeeeesIZ|
|14.|INSPECTION ............................................................................................................................................. 13<br>14.|
||V4.1<br>INSPECTION CONCITION woeeeeceecseessseessessssecssccsneccssccsnecessccsuecenscesuccanecssuccenecssscessecsncessessneeesessneeeneesseeLO|
||14.2<br>INSPECTION STANMAMC.LQ...eecsessssessssesssescsnecssccsnecessccsuecsnccsuecsnsecsuecsueccsuecsuecssueceneessecsueessecsnecsseeesnees[4|
|15.|RELIABILITY TEST .................................................................................................................................. 15<br>15.|
|16.|LEGAL INFORMATION ...................................................................................................................... 16<br>16.|



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© 2025 Riverdi 

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**RVT101HVDNWC00-B V1.1A** 

## **MODULE CLASSIFICATION INFORMATION** 

|**RV**<br>**T**<br>**101**<br>**H**<br>**V**<br>**D**<br>**N**<br>**W**<br>**C**<br>**00**<br>**B**<br>**V1.1A**|**RV**<br>**T**<br>**101**<br>**H**<br>**V**<br>**D**<br>**N**<br>**W**<br>**C**<br>**00**<br>**B**<br>**V1.1A**|**RV**<br>**T**<br>**101**<br>**H**<br>**V**<br>**D**<br>**N**<br>**W**<br>**C**<br>**00**<br>**B**<br>**V1.1A**|**RV**<br>**T**<br>**101**<br>**H**<br>**V**<br>**D**<br>**N**<br>**W**<br>**C**<br>**00**<br>**B**<br>**V1.1A**|**RV**<br>**T**<br>**101**<br>**H**<br>**V**<br>**D**<br>**N**<br>**W**<br>**C**<br>**00**<br>**B**<br>**V1.1A**|**RV**<br>**T**<br>**101**<br>**H**<br>**V**<br>**D**<br>**N**<br>**W**<br>**C**<br>**00**<br>**B**<br>**V1.1A**|**RV**<br>**T**<br>**101**<br>**H**<br>**V**<br>**D**<br>**N**<br>**W**<br>**C**<br>**00**<br>**B**<br>**V1.1A**|**RV**<br>**T**<br>**101**<br>**H**<br>**V**<br>**D**<br>**N**<br>**W**<br>**C**<br>**00**<br>**B**<br>**V1.1A**|**RV**<br>**T**<br>**101**<br>**H**<br>**V**<br>**D**<br>**N**<br>**W**<br>**C**<br>**00**<br>**B**<br>**V1.1A**|**RV**<br>**T**<br>**101**<br>**H**<br>**V**<br>**D**<br>**N**<br>**W**<br>**C**<br>**00**<br>**B**<br>**V1.1A**|**RV**<br>**T**<br>**101**<br>**H**<br>**V**<br>**D**<br>**N**<br>**W**<br>**C**<br>**00**<br>**B**<br>**V1.1A**|**RV**<br>**T**<br>**101**<br>**H**<br>**V**<br>**D**<br>**N**<br>**W**<br>**C**<br>**00**<br>**B**<br>**V1.1A**|
|---|---|---|---|---|---|---|---|---|---|---|---|
|1.|2.|3.|4.|5.|6.|7.|8.|9.|10.|11.|12.|



|**NO.**<br>**PARAMETER**<br>**SYMBOL**|**NO.**<br>**PARAMETER**<br>**SYMBOL**|**NO.**<br>**PARAMETER**<br>**SYMBOL**|
|---|---|---|
|1.|BRAND|RV – Riverdi|
|2.|PRODUCT TYPE|T – TFT Standard|
|3.|DISPLAY SIZE|101 – 10.1”|
|4.|MODEL SERIAL NO.|H – High Brightness, IPS|
|5.|RESOLUTION|V – 1280 x 800 px|
|6.|INTERFACE|D – MIPI DSI|
|7.|FRAME|N – Without Mounting Metal Frame|
|8.|BACKLIGHT TYPE|W – LED White|
|9.|TOUCH PANEL|C – With Capacitive Touch Panel|
|10.|VERSION|00 – (00-99)|
|11.|BONDING TECHNOLOGY|B – Optical bonding|
|12.|MODULE VERSION|V1.1A|



Page **4** of **16** 

© 2025 Riverdi 

www.riverdi.com 

**RVT101HVDNWC00-B V1.1A** 

## **ASSEMBLY GUIDE** 

## **uxTouch ASSEMBLY** 

uxTouch are LCD TFT displays with specially designed projected capacitive touch panels. uxTouch display can be mounted without any additional holes in the housing. Our standard uxTouch displays include double-sided adhesive tape (DST) to stick TFT easily to the housing. 

uxTouch models with double-side adhesive tape can be mounted by fastening the glass to the housing. 

_Figure 1. General view of the module_ 

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Revision: Changes: Date:<br>1.0 Initial Case 2023.08.08<br>1.1 Anti-UV Ink + Anti-UV OCA to Touch PanelPN Update from V1.0A to V1.1A 2025.08.25<br>257.96 [10.156](CG O.D.)<br>228.76 [9.006](TFT O.D.) 14.60 [0.575]<br>228.46 [8.994](SENSOR O.D.) 14.75 [0.581] MAX 12.66 [0.498](MODULE O.D.)<br>218.96 [8.620](SENSOR A.A.) 19.50 [0.768] 6.40 [0.252](CTP+OCA+TFT)<br>217.96 [8.581](CG V.A.) 20.00 [0.787] 2.03 [0.080](CG+SCA+SENSOR+OCA)<br>216.96 [8.542](TFT A.A.) 20.50 [0.807] 1.28 [0.050](CG+DST) 153.43±0.5 [6.041±0.020]<br>3M9495 D.S.T. (T=0.175mm[0.007])<br>128.98 [5.078] 1.10 [0.043](CG) 41.74±0.5 [1.643±0.020]<br>BLACK TAPE (T=0.05mm[0.002])<br>ry T V i S) A 4<br>LENS<br>(T=1.1mm[0.043inch])<br>SCA 34PINS, 0.5mm PITCH<br>(T=0.2mm[0.008inch]) DOWN-SIDE CONTACT<br>SENSOR J1<br>(T=0.55mm[0.022inch]) 34 1<br>ANTI-UV OCA 10 1<br>(T=0.175mm[0.007inch]) PCAPP1 40                          110.1 LVDS TFT<br>P2<br>\ | | COMPONENT AREA ( 40 1 |<br>1 - 4. Z<br>GROUNDING TAPE<br>LEDA<br>ANTI-UV,BLACK MASK PRINTING<br>COLOR: RAL9005 DETAIL A 1 Vi vi vi vi wi wi wi vi ve<br>SCALE 4:1 2 Vi vi vi wi wi wi wi we We<br>3 vi wi wi wi wi wi wi wi we<br>TT TT 0.20 [0.008]*45°0.20 [0.008]*45° 4 2 2 2 2 2 eeEe ee<br>5 vo vi wi vi vi vi We We We<br>LEDK<br>1 2 3 4 5 6 7 8 9<br>LED Diagram Circuit<br>4*R7.00 [R0.276]<br>12.35 [0.486] 12.50 [0.492] 15.50 [0.610] 16.00 [0.630] 16.50 [0.650]<br>84.30 [3.319]<br>74.57±0.5 [2.936±0.020] 71.07±0.5 [2.798±0.020]<br>168.60 [6.638](CG O.D.) 148.80 [5.858](TFT O.D.) 136.60 [5.378](CG V.A.) 135.60 [5.339](TFT A.A.)<br>148.10 [5.831](SENSOR O.D.) 137.60 [5.417](SENSOR A.A.)<br>4 CN1 1 6 CN2 1<br>+ -<br>**----- End of picture text -----**<br>


**LCD NOTES: TP NOTES: GENERAL NOTES:** 1. LCD TYPE: TRANSMISSIVE, NORMALLY BLACK, IPS 1. TP STRUCTURE: G+G 1. ZERO BAD PIXELS FOR TFT 2. RESOLUTION: 1280x800 2. CG THICKNESS: 1.10mm[0.043inch] 2.  OPTICAL BONDING PN: RVT101HVDNWC00-B V1.1A 3.4.  SURFACE LUMINANCE: 850 cd/m^2VIEWING ANGLE: FREE 3. SURFACE HARDNESS: 7H4. DRIVER IC: ILI2132A 4.   STORAGE TEMPERATURE: -30°C ~ 80°C3. OPERATING TEMPERATURE: -20°C ~ 70°C SN: 5.  DRIVING IC ON THE BOARD: SN65DSI83ZXHR6. INTERFACE: MIPI DSI 5. INTERFACE: I2C INTERFACE 5. ±0.3mm[0.012inch]WITHOUT INDIVIDUAL TOLERANCE: DRAWN: M.Stabinski 2025.08.25 1:1.92 7.  SUPPLY VOLTAGE FOR MODULE: 5.0 V 6. RoHS COMPLIANT CHECKED: Carol Gao 2025.08.25 [mm] APPR: ISO A3 P. 1 of 1 Pf : iVver ~~dal~~ 

**RVT101HVDNWC00-B V1.1A** 

## **ABSOLUTE MAXIMUM RATINGS** 

|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**MAX**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**MAX**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**MAX**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**MAX**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**MAX**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**MAX**<br>**UNIT**<br>**NOTE**|
|---|---|---|---|---|---|
|Supply Voltage for Module|VDD|0|7.4|V|Note 1|
|Reference Voltage|VREF|0|4.6|V||
|PWM Input Voltage|VPWM|-0.3|7.4|||
|Operating Temperature|TOP|-20|70|°C||
|Storage Temperature|TST|-30|80|||
|Storage Humidity (@ 25 ± 5°C)|HST|10|-|% RH||
|Operating Ambient Humidity (@ 25 ± 5°C)|HOP|10|-|||



**Note 1.** Exceeding maximum values may cause improper operation or permanent damage to the unit. 

## **ELECTRICAL CHARACTERISTICS** 

|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**NOTE**|
|---|---|---|---|---|---|---|---|
|Supply Voltage for Module||VDD|-|5.0|-|V||
|Reference Voltage||VREF|0|-|3.6||Note 1|
|Current drawn from VREF||IVREF|-|1.5|-|uA|VREF=1.8V|
|Input High Voltage||VIH|0.7VREF|-|-|V||
|Input Low Voltage||VIL|0|-|0.3VREF|||
|PWM Logic<br>Input Voltage|High Voltage|VPWMH|1.2|-|VDD|V|Note 2|
||Low Voltage|VPWML|0|-|0.4|||
|PWM Frequency||FPWM|200|-|1000|Hz||



**Note 1.** TYP of Reference Voltage is 1.8V or 3.3V which is dependent on the SBC. 

**Note 2.** PWM input is independent of VREF. Min of logic high level is 1.2V and max of logic low level is 0.4V. 

|**PARAMETER**<br>**SYMBOL**<br>**BL 0%**<br>**BL 50%**<br>**BL 100%**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**BL 0%**<br>**BL 50%**<br>**BL 100%**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**BL 0%**<br>**BL 50%**<br>**BL 100%**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**BL 0%**<br>**BL 50%**<br>**BL 100%**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**BL 0%**<br>**BL 50%**<br>**BL 100%**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**BL 0%**<br>**BL 50%**<br>**BL 100%**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**BL 0%**<br>**BL 50%**<br>**BL 100%**<br>**UNIT**<br>**NOTE**|
|---|---|---|---|---|---|---|
|Current drawn from<br>VDD@5.0V|IVDD|270|730|1270|mA|Note 3|



**Note 3.** BL 0%. current was measured with BL brightness set to 0%, 

BL 50%.current was measured with BL brightness set to 50%, 

BL 100%.current was measured with BL brightness set to 100%. 

Test condition: 

1. Ambient temp 25 °C 

2.PCAP is in active mode 

Page **7** of **16** 

© 2025 Riverdi 

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**RVT101HVDNWC00-B V1.1A** 

## **BACKLIGHT ELECTRICAL CHARACTERISTICS** 

|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**NOTE**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**NOTE**|
|---|---|---|---|---|---|---|
|Lifetime|-|-|50,000|-|hours|Note 1|



**Note 1.** Operating life means the period in which the LED brightness goes down to 50% of the initial brightness. Typical operating lifetime is the estimated parameter. 

## **ELECTRO-OPTICAL CHARACTERISTICS** 

|**ITEM**<br>**SYMBOL**<br>**CONDITION**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**RMK**<br>**NOTE**|**ITEM**<br>**SYMBOL**<br>**CONDITION**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**RMK**<br>**NOTE**|**ITEM**<br>**SYMBOL**<br>**CONDITION**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**RMK**<br>**NOTE**|**ITEM**<br>**SYMBOL**<br>**CONDITION**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**RMK**<br>**NOTE**|**ITEM**<br>**SYMBOL**<br>**CONDITION**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**RMK**<br>**NOTE**|**ITEM**<br>**SYMBOL**<br>**CONDITION**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**RMK**<br>**NOTE**|**ITEM**<br>**SYMBOL**<br>**CONDITION**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**RMK**<br>**NOTE**|**ITEM**<br>**SYMBOL**<br>**CONDITION**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**RMK**<br>**NOTE**|**ITEM**<br>**SYMBOL**<br>**CONDITION**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**<br>**RMK**<br>**NOTE**|
|---|---|---|---|---|---|---|---|---|
|Response Time|Tr+Tf|θ=0°<br>∅=0°<br>Ta=25 °C|-|25|35|ms|FIG 2.|4|
|Contrast Ratio|Cr||800|1000|-|---|FIG 3.|1|
|Luminance<br>Uniformity|δ<br>WHITE||-|75|-|%||3|
|Surface<br>Luminance|Lv||-|850|-|cd/m2||2|
|Viewing Angle<br>Range|θ|∅ = 90°|75|85|-|deg|FIG 4.|6|
|||∅ = 270°|75|85|-|deg|||
|||∅ = 0°|75|85|-|deg|||
|||∅ = 180°|75|85|-|deg|||
|CIE (x, y)<br>Chromaticity|Rx|θ=0°<br>∅=0°<br>Ta=25 °C|0.22|0.26|0.30|-|FIG 3.|5|
||Ry||0.20|0.24|0.28|-|||
||Gx||0.34|0.38|0.42|-|||
||Gy||0.50|0.54|0.58|-|||
||Bx||0.10|0.14|0.18|-|||
||By||0.09|0.13|0.17|-|||
||Wx||0.28|0.32|0.36|-|||
||Wy||0.29|0.33|0.37|-|||



**Note 1.** Contrast Ratio (CR) is defined mathematically as below, for more information see Figure 3. 

Contrast Ratio =[Average Surface Luminance with all white pixels (P1, P2, P3, P4, P5)] Average Surface Luminance with all black pixels (P1, P2, P3, P4, P5) 

**Note 2.** Surface luminance is measured 500mm from the center point of the LCD surface with all pixels displaying white. For more information see Figure 3. 

Lv = Average Surface Luminance with all white pixels (P1, P2, P3, P4, P5) 

**Note 3.** The uniformity in surface luminance δ WHITE is determined by measuring luminance at each test position 1 through 5, and then dividing the minimum luminance of 5 points luminance by maximum luminance of 5 points luminance. For more information see Figure 3. 

δ WHITE =[Minimum Surface Luminance with all white pixels (P1, P2, P3, P4, P5)] Maximum Surface Luminance with all white pixels (P1, P2, P3, P4, P5) 

**Note 4.** Response time is the time required for the display to transition from white to black (Rise Time, Tr) and from black to white (Decay Time, Tf). For additional information see Figure 2. The test equipment is BM-7A. 

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**RVT101HVDNWC00-B V1.1A** 

**Note 5.** CIE (x, y) chromaticity, the x, y value is determined by measuring luminance at each test position 1 through 5, and then calculating the average value. 

**Note 6** . For TFT module the contrast ratio is greater than 10. The angles are determined for the horizontal or x axis and the vertical or y axis with respect to the z axis which is normal to LCD surface. For more information see Figure 4. 

**Note 7.** Viewing angle is measured at the center point of the LCD by CONOSCOPE (ergo80). For response time testing, the testing data is based on BM-7A. Instruments for Contrast Ratio, Surface Luminance, Luminance Uniformity, Chromaticity the test data is based on SR-3A. 

_Figure 2. The definition of response time_ 

_Figure 3. Measuring method for Contrast ratio, surface luminance, Luminance uniformity, CIE (x, y) chromaticity_ 

A: 5mm 

B: 5mm 

H, V: Active Area 

Light spot size ∅=5mm, 500mm distance from the LCD surface to detector lens. 

Measurement instrument is SR-3A 

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**RVT101HVDNWC00-B V1.1A** 

_Figure 4. The definition of viewing angle_ 

## **INTERFACES DESCRIPTION** 

## **J1 connector** 

|**PIN NO.**<br>**CONNECTOR**<br>**I/O/P**<br>**DESCRIPTION**<br>**NOTE**|**PIN NO.**<br>**CONNECTOR**<br>**I/O/P**<br>**DESCRIPTION**<br>**NOTE**|**PIN NO.**<br>**CONNECTOR**<br>**I/O/P**<br>**DESCRIPTION**<br>**NOTE**|**PIN NO.**<br>**CONNECTOR**<br>**I/O/P**<br>**DESCRIPTION**<br>**NOTE**|**PIN NO.**<br>**CONNECTOR**<br>**I/O/P**<br>**DESCRIPTION**<br>**NOTE**|
|---|---|---|---|---|
|1|GND|P|Ground||
|2<br>~~a~~|DSI_D0P<br>~~esGr~~|I/O<br>~~Gr~~|MIPI DSI differential data pair. (Data lane 0)<br>~~Gr~~|~~Gr~~|
|3<br>~~a~~|DSI_D0N<br>~~esGr~~|I/O<br>~~Gr~~||~~Gr~~|
|4<br>~~a~~<br>~~a~~|GND<br>~~esGr~~<br>~~a~~|P<br>~~Gr~~<br>~~ee~~|Ground<br>~~Gr~~|~~Gr~~|
|5<br>~~a ~~<br>~~ee~~|DSI_D1P<br> ~~a~~<br>~~ee~~|I<br>~~ee~~<br>~~ee~~|MIPI DSI differential data pair. (Data lane 1)<br>~~|~~<br>~~re~~<br>~~Qe~~|~~|~~|
|6<br>~~ee~~<br>~~a~~<br>~~a~~|DSI_D1N<br>~~ee~~<br>~~are~~<br>~~es ee~~|I<br>~~ee~~<br>~~re~~<br>~~ee~~||~~|~~<br>~~re~~|
|7<br>~~a ~~<br>~~a~~<br>~~ee~~|GND<br> ~~a re~~<br>~~es ee~~<br>~~ee~~|P<br>~~re~~<br>~~ee~~<br>~~ee~~|Ground<br>~~re~~<br>~~Qe~~<br>~~|~~|~~re~~<br>~~|~~|
|8<br>~~a~~<br>~~ee~~<br>~~a~~|DSI_CLKP<br>~~es ee~~<br>~~ee~~<br>~~esGer~~|I<br>~~ee~~<br>~~ee~~<br>~~Ger~~|MIPI DSI differential clock pair<br>~~Qe~~<br>~~|~~<br>~~Ger~~|~~|~~<br>~~Ger~~|
|9<br>~~ee ~~<br>~~a~~|DSI_CLKN<br> ~~ee~~<br>~~esGer~~|I<br>~~ee~~<br>~~Ger~~||~~|~~<br>~~Ger~~|
|10<br>~~a ~~<br>~~a~~|GND<br> ~~esGer~~<br>~~a~~|P<br>~~Ger~~<br>~~ee~~|Ground<br>~~Ger~~|~~Ger~~|
|11<br>~~a ~~<br>~~ee~~<br>~~a~~|DSI_D2P<br> ~~a~~<br>~~ee~~<br>~~ee~~|I<br>~~ee~~<br>~~ee~~|MIPI DSI differential data pair. (Data lane 2)<br>~~|~~|~~|~~|
|12<br>~~ee~~<br>~~a~~|DSI_D2N<br>~~ee~~<br>~~ee~~|I<br>~~ee~~||~~|~~|
|13<br>~~a~~<br>~~ss~~<br>~~ee~~|GND<br>~~ee~~<br>~~ss~~<br>~~ee~~|P<br>~~eG~~<br>~~ee~~|Ground<br>~~eG~~<br>|||
|14<br>~~ss~~<br>~~ee~~|DSI_D3P<br>~~ss ~~<br>~~ee~~|I<br> ~~eG~~<br>~~ee~~|MIPI DSI differential data pair. (Data lane 3)<br>~~eG~~<br>|<br>~~dG~~||
|15<br>~~ee~~<br>~~adG~~|DSI_D3N<br>~~ee~~<br>~~dG~~|I<br>~~ee~~<br>~~dG~~||~~dG~~|
|16<br>~~adG~~|GND<br>~~dG~~|P<br>~~dG~~|Ground<br>~~dG~~|~~dG~~|
|17|PWR_DN|I|Power down (With locally generated reset<br>after releasing power-down)<br>Active Low, display is off when signal is low;|Note 2|
|18|PWM|I|Backlight brightness control|Note 3|
|19<br>~~a~~|INT<br>~~ee ee~~|O<br>~~ee~~|Touch panel Interrupt signal;<br>Open-drain output, active low|Note 2<br>||
|20<br>~~a~~|I2C_SCL<br>~~ee ee~~|I<br>~~ee~~|I2C clock signal||
|21<br>~~a~~|I2C_SDA<br>~~ee ee~~|I/O<br>~~ee~~|I2C data signal||
|22|RESET|I|Touch panel reset||
|23|NC|/|No connection||
|24|VREF|P|Reference voltage||
|25|NC|/|No connection||



Page **10** of **16** 

© 2025 Riverdi 

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**RVT101HVDNWC00-B V1.1A** 

|26||||
|---|---|---|---|
|27<br>28|5.0V|P|Power supply VDD|
|29||||
|30|GND|P|Ground|
|31||||
|32<br>33|NC|/|No connection|
|34||||



**Note 1.** Matched 34 pins, 0.5 mm pitch, 150mm long FFC accessory: FFC0534150. **Note 2.** Internally pull-up with 15K resistor to VREF. 

**Note 3** .Backlight driver is TPS61500. PWM frequency range: 200Hz-1KHz. 

0% PWM duty cycle corresponds to minimum brightness. 

100% PWM duty cycle corresponds to maximum brightness. 

## **DIAGRAM BLOCK** 

Page **11** of **16** 

© 2025 Riverdi 

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**RVT101HVDNWC00-B V1.1A** 

## **TFT TIMING CHARACTERISTICS** 

The TFT of the module applies Riverdi high brightness, IPS, 10.1” TFT: RVT101HVLNWC00-B 

For detailed information of the display, please refer to datasheet of display. 

## **Timing table** 

|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**|**PARAMETER**<br>**SYMBOL**<br>**MIN**<br>**TYP**<br>**MAX**<br>**UNIT**|
|---|---|---|---|---|---|
|Clock Frequency<br>(Rate=60Hz(LVDS))|FDCLK|66.3|72.4|78.9|MHz|
|HSYNC Period Time|TH|1380|1440|1500|DCLK|
|Horizontal Displayarea<br>~~a~~|THD|1280|||DCLK|
|Hsync Pulse Width<br>~~a~~|THPW|1|-|40|Tc|
|Hsync Back Porch<br>(Withpulse width)|THBP|88|88|88|DCLK|
|Hsync Front Porch|THFP|12|72|132|DCLK|
|VSYNC Period Time<br>~~ed~~|TV|824|838|872|H<br>||
|Vertical Displayarea<br>~~ed~~|TVD|800||||
|Vsync Pulse Width<br>~~ed~~|TVW|1|-|20||
|Vsync Back Porch<br>(Withpulse width)|TVBP|23|23|23||
|Vsync Front Porch|TVFP|1|15|49||



## **CAPACITIVE TOUCH SCREEN PANEL SPECIFICATIONS** 

## **Mechanical characteristics** 

**DESCRIPTION SPECIFICATION REMARK** Touch Panel Size 10.1 inch ~~a~~ Outline Dimension of CTP 257.96 mm x 168.60 mm ~~a~~ Product Thickness 2.03 mm[|] ~~a~~ Glass Thickness 1.1 mm ~~a~~ CTP View Area 217.96 mm x 136.60 mm uxTouch[|] ~~a~~ Sensor Active Area 218.96mm x 137.60 mm | ~~Ge~~ Surface Hardness 7H 13.2 **Electrical characteristics DESCRIPTION SPECIFICATION REMARK** Linearity +/- 1.5mm ~~a~~ Controller ILI2132A ~~a~~ Resolution ~~GD~~ 1280 x 800 

Page **12** of **16** 

© 2025 Riverdi 

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**RVT101HVDNWC00-B V1.1A** 

## **INSPECTION** 

Standard acceptance/rejection criteria for TFT module 

## **Inspection condition** 

Ambient conditions: 

- Temperature: 25 ± 2°C 

- Humidity: (60 ± 10) %RH 

- Illumination: Single fluorescent lamp non-directive (300 to 700 lux) 

Viewing distance: 35 ± 5cm between inspector bare eye and LCD. 

Viewing Angle: U/D: 45°/45°, L/R: 45°/45° 

Page **13** of **16** 

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**RVT101HVDNWC00-B V1.1A** 

## **Inspection standard** 

The LCD TFT has zero bad pixels. Please refer the item “Bright/Dark dots ”. 

|**ITEM**<br>**CRITERION**<br>~~ee~~|**ITEM**<br>**CRITERION**<br>~~ee~~|**ITEM**<br>**CRITERION**<br>~~ee~~|**ITEM**<br>**CRITERION**<br>~~ee~~|**ITEM**<br>**CRITERION**<br>~~ee~~|**ITEM**<br>**CRITERION**<br>~~ee~~|**ITEM**<br>**CRITERION**<br>~~ee~~|**ITEM**<br>**CRITERION**<br>~~ee~~|**ITEM**<br>**CRITERION**<br>~~ee~~|
|---|---|---|---|---|---|---|---|---|
|Black spots,<br>white spots,<br>light leakage,<br>Foreign Particle<br>(round Type)<br>~~e~~|D=(x+y)/2<br>Spots density: 10 mm<br>~~ee~~<br>eo||Size =10.1”<br>~~e~~||||||
||||Average Diameter||||Qualified Qty||
||||D ≤ 0.2 mm||||Ignored||
||||0.2 mm < D ≤ 0.3 mm||||N≤4||
||||0.5mm < D||||N = 0||
|LCD black spots,<br>white spots,<br>light leakage<br>(line Type)|Spots density: 10 mm||Size =10.1”||||||
||||Length||Width|||Qualified<br>Qty|
||||-||W ≤ 0.05|||Ignored|
||||L ≤ 5.0||0.05< W ≤ 0.1|||N ≤ 3|
||||5.0 < L||0.10< W<br>5.0 < L|||N = 0|
|Bright/Dark<br>Dots|Size =10.1”||||||||
||Item|||Qualified Qty|||||
||Bright dots|||0|||||
||Dark dots|||0|||||
||Cluster Bright Dots or Dark Dots|||0|||||
||Total Bright and Dark Dots|||0|||||
|Clear spots|Size ≥ 5”||||||||
||Average Diameter|||Qualified Qty|||||
||D < 0.2 mm|||Ignored|||||
||0.2 mm < D < 0.3 mm|||4|||||
||0.3 mm < D < 0.5 mm|||2|||||
||0.5 mm < D|||0|||||
||Spots density: 10 mm||||||||
|Touch panel<br>spot|Size ≥ 5"||||||||
||Average Diameter|||Qualified Qty|||||
||D < 0.25 mm|||Ignored|||||
||0.25 mm < D < 0.5 mm|||4|||||
||0.5 mm < D|||0|||||
|Touch panel<br>White line<br>Scratch|Size ≥ 5"||||||||
||Length|Width||||Qualified Qty|||
||-|W < 0.03||||Ignored|||
||L < 5.0|0.03 < W < 0.05||||2|||
||-|0.05 < W||||0|||



Page **14** of **16** 

© 2025 Riverdi 

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**RVT101HVDNWC00-B V1.1A** 

## **RELIABILITY TEST** 

|**NO.**<br>**TEST ITEM**<br>**TEST CONDITION**<br>**NOTE**<br>~~eee~~|**NO.**<br>**TEST ITEM**<br>**TEST CONDITION**<br>**NOTE**<br>~~eee~~|**NO.**<br>**TEST ITEM**<br>**TEST CONDITION**<br>**NOTE**<br>~~eee~~|**NO.**<br>**TEST ITEM**<br>**TEST CONDITION**<br>**NOTE**<br>~~eee~~|
|---|---|---|---|
|1<br>~~eee~~<br>~~a~~|High Temperature Storage<br>~~eee~~<br>~~a~~|80°C/120 hours<br>~~eee~~<br>~~a~~|Note 1<br>~~eee~~<br>~~a|~~<br>~~a~~|<br>~~a|~~<br>~~a~~||
|2<br>~~a~~<br>~~a~~|Low Temperature Storage<br>~~a~~<br>~~a~~|-30°C/120 hours<br>~~a~~<br>~~a~~||
|3<br>~~a~~<br>~~a~~|High Temperature Operating<br>~~a~~<br>~~a~~|70 °C /120 hours<br>~~a~~<br>~~a~~||
|4<br>~~a~~<br>~~a~~|Low Temperature Operating<br>~~a~~<br>~~a~~|-20°C/120 hours<br>~~a~~<br>~~a~~||
|5<br>~~a~~|High Temperature and High Humidity<br>~~a~~|Humidity 40℃, 90%RH, 120Hrs<br>~~a~~||
|6|Thermal Cycling Test (No operation)|-20℃for 30min, 70℃for 30<br>min.<br>100 cycles. Then test at room<br>temperature after 1 hour|Note 2|
|7|Vibration Test|Frequency: 10 ÷ 55 Hz.<br>Stroke: 1.5 mm.<br>Sweep: 10Hz ÷ 55Hz ÷ 10 Hz.<br>2 hours for each direction of X,<br>Y, Z<br>(Total 6 hours)||
|8|Package Drop Test|Height: 60 cm<br>1 corner, 3 edges, 6 surfaces||



**Note 1.** Sample quantity for each test item is 5 ÷ 10 pcs. 

**Note 2.** Before cosmetic and function test, the product must have enough recovery time, at least 2 hours at room temperature. 

Page **15** of **16** 

© 2025 Riverdi 

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**RVT101HVDNWC00-B V1.1A** 

## **LEGAL INFORMATION** 

CE marking is usually obligatory only for a complete end product. Riverdi display modules are semi-finished goods which are used as inputs to become part of the finished products. Therefore, Riverdi display modules are not CE marked. 

Riverdi grants the guarantee for the proper operation of the goods for a period of 12 months from the date of possession of the goods. If in a consequence of this guaranteed execution the customer has received the defects-free item as replacement for the defective item, the effectiveness period of this guarantee shall start anew from the moment the customer receives the defects-free item. 

Information about device is the property of Riverdi and may be the subject of patents pending or granted. It is not allowed to copy or disclosed this document without prior written permission. 

Riverdi endeavors to ensure that all contained information in this document is correct but does not accept liability for any error or omission. Riverdi products are in developing process and published information may be not up to date. Riverdi reserves the right to update and makes changes to Specifications or written material without prior notice at any time. It is important to check the current position with Riverdi. 

Images and graphics used in this document are only for illustrative the purpose. All images and graphics are possible to be displayed on the range products of Riverdi, however the quality may vary. Riverdi is no liable to the buyer or to any third party for any indirect, incidental, special, consequential, punitive or exemplary damages (including without limitation lost profits, lost savings, or loss of business opportunity) relating to any product, service provided or to be provided by Riverdi, or the use or inability to use the same, even if Riverdi has been advised of the possibility of such damages. 

Riverdi products are not fault tolerant nor designed, manufactured or intended for use or resale as on line control equipment in hazardous environments requiring fail–safe performance, such as in the operation of nuclear facilities, aircraft navigation or communication systems, air traffic control, direct life support machines or weapons systems in which the failure of the product could lead directly to death, personal injury or severe physical or environmental damage (‘High-Risk Activities’). Riverdi and its suppliers specifically disclaim any expressed or implied warranty of fitness for High-Risk Activities. Using Riverdi products and devices in 'High-Risk Activities' and in any other application is entirely at the buyer’s risk, and the buyer agrees to defend, indemnify and hold harmless Riverdi from all damages, claims or expenses resulting from such use. No licenses are conveyed, implicitly or otherwise, under any Riverdi intellectual property rights. 

Page **16** of **16** 

© 2025 Riverdi 

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Capacitive Touch Display 10.1" DSI Datasheet Disclaimer 

## **DISCLAIMER** 

Copyright © Toradex AG. All rights are reserved. The information and content in this document are provided “as-is” with no warranties of any kind and are for informational purposes only. Data and information have been carefully checked and are believed to be accurate; however, no liability or responsibility for any errors, omissions or inaccuracies is assumed. 

Brand and product names are trademarks or registered trademarks of their respective owners. Specifications are subject to change without notice. 

Toradex AG _·_ Ebenaustrasse 10 _·_ 6048 Horw _·_ Switzerland _·_ +41 41 500 48 00 _·_ www.toradex.com _·_ info@toradex.com 

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