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SSD1963 7″

This datasheet gives detailed information about the Riverdi 7″ SSD1963 displays. The displays come in different versions: with capacitive, resistive, or no touchscreen, with a decorative cover glass, as well as with our without a metal mounting frame.

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Rev.2.0
2020-02-12

ITEM CONTENTS UNIT
LCD Type TFT/Transmissive/Normally white /
Size 7.0 Inch
Viewing Direction 12:00 (without image inversion) O’ Clock
Gray Scale Inversion Direction 6:00 O’ Clock
Number of Dots 800 x (RGB) × 480 /
Driver IC SSD1963 /
Interface Type Parallel 8/16b (i80 by default) – SPI /
Brightness no touch module 500 cd/m2
CTP module 450
RTP module 400
Color Depth 16.7M /
Pixel Arrangement RGB Vertical Stripe /
Surface Treatment Anti-glare / Clear (for CTP) /
Input Voltage 3.3 V

Note 1: RoHS, REACH SVHC compliant

Note 2: LCM weight tolerance: ± 5%.

1. Module classification information

RV T 70 x Q S x W x ox
1. 2. 3. 4. 5. 6. 7. 8. 9. 10.
1. BRAND RV – Riverdi
2. PRODUCT TYPE T – TFT Standard
3. DISPLAY SIZE 70 – 7.0”
4. MODEL SERIAL NO. A (A-Z)

U-UxTouch

5. RESOLUTION Q– 800x480px
6. INTERFACE S – TFT+SSD1963
7. FRAME N – No Frame

F – Mounting Frame

8. BACKLIGHT TYPE W – LED White
9. TOUCH PANEL N – No Touch Panel

R – Resistive Touch Panel

C – Capacitive Touch Panel

10. VERSION 0x (00-99)

2. Assembly guide – integration

Three options of rear side adhesive tape are available: double side adhesive tape 0.2 mm with 3M 467MP glue, foam double side adhesive tape 0.5 mm with DST 3M 9495LE glue or without any tape.

There are also two versions of glass color: black and white.

Rear side adhesive tape options:

Double side adhesive tape with DST 3M 9495LE glue (total thickness 0.2mm) Foam double side adhesive tape with 3M 9495LE glue (total thickness 0.5mm) Without tape

 

Cover glass color options:

BLACK WHITE

Product options:

PART NUMBER DESCRIPTION
RVT70AQSNWN00  V2 SSD1963, No mounting frame, No touch panel, Rev 2.0
RVT70AQSNWR00  V2 SSD1963, No mounting frame, RTP, Rev 2.0
RVT70AQSNWC00  V2 SSD1963, No  mounting frame, CTP, Rev 2.0
RVT70AQSFWN00  V2 SSD1963, With  mounting frame, No touch panel, Rev 2.0
RVT70AQSFWR00  V2 SSD1963, With  mounting frame, RTP, Rev 2.0
RVT70AQSFWC00  V2 SSD1963, With  mounting frame, CTP, Rev 2.0 
RVT70UQSNWC00  V2 SSD1963, CTP uxTouch, black cover glass, 0.2mm DST, Rev 2.0
RVT70UQSNWC01  V2 SSD1963, CTP uxTouch, black cover glass, 0.5 mm DST, Rev 2.0
RVT70UQSNWC02  V2 SSD1963, CTP uxTouch, black cover glass, no DST, Rev 2.0
RVT70UQSNWC03  V2 SSD1963, CTP uxTouch, white cover glass, 0.2mm DST, Rev 2.0
RVT70UQSNWC04  V2 SSD1963, CTP uxTouch, white cover glass, 0.5 mm DST, Rev 2.0
RVT70UQSNWC05  V2 SSD1963, CTP uxTouch, white cover glass, no DST, Rev 2.0

2.1. UxTouch assembly

UxTouch are LCD TFT displays with specially designed projected capacitive touch panels. UxTouch display can be mounted without any holed 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 (PN with endings 00, 01, 03, 04) can be mounted by connecting the glass to the housing. Riverdi recommends to use support brackets assembled to display’s back. An additional support will stiffen the whole structure and minimize the influence of external factors such as vibration. Figure 1 and Figure 2 below show examples of using support elements.

Figure 1. Example of using support brackets

2.2. Mounting frame

Thanks to the four catches attached to the side, frame provides strong assembly to the surface by mounting element (like the screw, see Figure 3). The frames are specially designed to fit Riverdi products perfectly. The diameter of the mounting hole is 3.5mm.

Figure 2. Mounting frame

3. Module drawing

Note: new drawings are still in progress,  we apologize for the inconvenience .

4. Absolute maximum ratings

PARAMETER SYMBOL MIN MAX UNIT
Supply Voltage for Logic VDD -0.3 5.0 V
Input Voltage for Logic VIN -0.3 VDD V
Input voltage for LED inverter BLVDD -0.3 7.0 V
Operating Temperature TOP -20 70 °C
Storage Temperature TST -30 80 °C
Humidity RH 90% (Max 60°C) RH

5. Electrical characteristics

PARAMETER SYMBOL MIN TYP MAX UNIT NOTES
Supply Voltage For Module VDD 3.0 3.3 3.6 V
Input Voltage for LED Inverter BLVDD 2.8 5.0 5.5 V
Input Voltage ‘H’ level for BL_E pin BL_Eh 1.5 5.5 V
Input Voltage ‘L’ level for BL_E pin BL_El 0 0.7 V
Input current (exclude LED backlight) IDD 95 115 mA
LED backlight current IDDbacklight 450 540 mA BLDD=5v
Input Voltage ‘H’ level VIH 0.7VDD VDD V
Input Voltage ‘L’ level VIL 0 0.2VDD V
LED Life Time 30000 50000 Hrs Note1

Note1: The LED life time is defined as the module brightness decrease to 50% original brightness at Ta=25°C

6. Electro-optical characteristics

ITEM SYMBOL CONDITION MIN TYP MAX UNIT REMARK NOTE
Response Time Tr+Tf
θ=0°
∅=0°
Ta=25
20 35 ms FIG 1. 4
Contrast Ratio Cr 400 500 FIG 2. 1
Luminance Uniformity δ
WHITE
70 75 % FIG 2. 3
Surface Luminance
TFT
Lv
400 500
cd/m2
FIG 2.
2
TFT+CTP 360 450
TFT+RTP 320 400
Viewing Angle Range
θ
∅ = 90° 40 50 deg FIG 3.
6
∅ = 270° 60 70 deg FIG 3.
∅ = 0° 60 70 deg FIG 3.
∅ = 180° 60 70 deg FIG 3.
CIE (x, y)
Chromaticity
Red
x
θ=0°
∅=0°
Ta=25
0.522 0.572 0.622
FIG 2.
5
y 0.300 0.350 0.400
Green
x 0.311 0.361 0.411
y 0.526 0.576 0.626
Blue
x 0.097 0.147 0.197
y 0.038 0.088 0.138
White
x 0.266 0.316 0.366
y 0.266 0.316 0.366

Note 1. Contrast Ratio(CR) is defined mathematically as below, for more information see  Figure 4 .

Note 2. Surface luminance is the LCD surface from the surface with all pixels displaying white. For more information, see Figure 4 .

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 maximum luminance of 5 points luminance by minimum luminance of 5 points luminance. For more information, see Figure 4 .

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 FIG 1. The test equipment is Autronic-Melchers’s ConoScope series.

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

Note 6. Viewing angle is the angle at which the contrast ratio is greater than 2. 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 the LCD surface. For more information see Figure 4.

Note 7. For viewing angle and response time testing, the testing data is based on Autronic-Melchers’s ConoScope series. Instruments for Contrast Ratio, Surface Luminance, Luminance Uniformity, CIE the test data is based on TOPCON’s BM-5 photo detector.

Note 8. For TFT module, Gray scale reverse occurs in the direction of panel viewing angle.

Figure 3. The definition of response time

Figure 4. Measuring method for Contrast ratio, surface luminance, Luminance uniformity, CIE (x, y) chromaticity

Figure 5.The definition of viewing angle

7. Interface description

PIN NO. SYMBOL I/O DESCRIPTION REMARK
1 GND P Power Ground
2 VDD P Power Supply: +3.3V
3 BL_E I Backlight Control Signal, H: On/L: Off (internally pulled-up to BLVDD)
4 D/C I Data/Command Select
5 WR I Write Strobe Signal
6 RD I Read Strobe Signal
7-22 D0-D15 I Data Bus. Pins not used should be floating.
23 NC No Connection
24 TP_INT (CTP module) O Touch Panel INT
NC (no touch and RTP module) NC
25 CS I Chip Select
26 RESET I Hardware reset
27 L/R I Left / Right selection 1,2,3,4
28 U/D I Up/Down selection 1,2,3,4
29 TP_SCL (CTP module) I/O Touch Panel I2C SCL Signal
XL (RTP module) No Connection
NC (no touch module) No Connection
30 TP_SDA (CTP module) I/O Touch Panel I2C SDA Signal
YU (RTP module) No Connection
NC (no touch module) No Connection
31 TP_RST (CTP module) I Touch Panel RST Signal, Active Low
XR (RTP module) No Connection
NC (no touch module) No Connection
32 TP_WAKE (CTP module) I Touch Panel Wake Signal, Active Low
YD (RTP module) No Connection
NC (no touch module) No Connection
33 BLGND P Backlight ground, can be connected to GND
34 BLGND P Backlight ground, can be connected to GND
35 BLVDD P Backlight power supply, can be connected to VDD
36 BLVDD P Backlight power supply, can be connected to VDD

Note 1: Selection of scanning mode.

SET OF SCAN CONTROL INPUT SCANNING DIRECTION
UD LR
GND VDD Up To Down, Left To Right
VDD GND Down To Up, Right To Left
GND GND Up To Down, Right To Left
VDD VDD Down To Up, Left To Right

Note 2: Definition of scanning direction.

Refer to the figure Figure 6.

Figure 6. Definition of scanning direction

Note 3: Normally (internally) pull high.

Note 4: Normally (internally) pull low.

8. Interface timing characteristics

8.1. 8080 mode

The 8080 mode MCU interface consist of CS#, D/C#, RD#, WR#, D[15:0].  This interface uses WR# to define a write cycle and RD# for read cycle. If the WR# goes low when the CS# signal is low, the data or command will be latched into the system at the rising edge of WR#. Similarly, the read cycle will start when RD# goes low and end at the rising edge of RD#.

Interface Cycle D[17] D[16] D[15] D[14] D[13] D[12] D[11] D[10] D[9] D[8] D[7] D[6] D[5] D[4] D[3] D[2] D[1] D[0]
16 bits (565 format) 1st     R5 R4 R3 R2 R1 G5 G4 G3 G2 G1 G0 B5 B4 B3 B2 B1
16 bits 1st     R7 R6 R5 R4 R3 R2 R1 R0 G7 G6 G5 G4 G3 G2 G1 G0
2nd     B7 B6 B5 B4 B3 B2 B1 B0 R7 R6 R5 R4 R3 R2 R1 R0
3rd     G7 G6 G5 G4 G3 G2 G1 G0 B7 B6 B5 B4 B3 B2 B1 B0
12 bits 1st     R7 R6 R5 R4 R3 R2 R1 R0 G7 G6 G5 G4
2nd     G3 G2 G1 G0 B7 B6 B5 B4 B3 B2 B1 B0
9 bits 1st     R5 R4 R3 R2 R1 R0 G5 G4 G3
2nd     G2 G1 G0 B5 B4 B3 B2 B1 B0
8 bits 1st     R7 R6 R5 R4 R3 R2 R1 R0
2nd     G7 G6 G5 G4 G3 G2 G1 G0
3rd     B7 B6 B5 B4 B3 B2 B1 B0

8.2. Parallel 8080-series Interface Timing

Figure 7.  Parallel 8080-series Interface Timing Diagram (Write Cycle)

Figure 8. Parallel 8080-series Interface Timing Diagram (Read Cycle)

9. LCD timing characteristics

9.1. Parallel RGB input timing table

PARAMETER SYMBOL MIN TYP MAX UNIT
DCLK Frequency Fclk 26.0 30.0 36.0 MHz
VSD Period Time Tv 515 525 535 TH
VSD Display Area Tvd 480 TH
VSD Blanking Tvb 10 TH
VSD Front Porch Tvfp 12 22 32 TH
VSD Pulse Width Tvpw 13 TH
HSD Pulse Width Thpw 30 DCLK
HSD Period Time Th 1026 1056 1086 DCLK
HSD Display Area Thd 800 DCLK
HSD Blanking Thb 16 DCLK
HSD Front Porch Thfp 180 210 240 DCLK

9.2. Clock and data input time diagram

Figure 9. Horizontal input timing diagram

Figure 10. Vertical input timing diagram

10. Touch panel specifications

10.1. Electrical characteristics

Note: Avoid operating with hard or sharp material such as a ball point pen or a mechanical pencil except a polyacetal pen (tip R0.8mm or less) or a finger

10.1.1. For capacitive touch panel

DESCRIPTION SPECIFICATION
Operating Voltage DC 2.8~3.6V
Power Consumption (IDD) Active Mode 10~18mA
Sleep Mode 30~50μA
Interface I2C
Linearity <1.5%
Controller FT5426
I2C address 0x38 (7 bit address)
Resolution 1792*1024

10.1.2. For resistive touch panel

ITEM VALUE UNIT REMARK
Min. Typ. Max.
Linearity -3.0 30 % Analog X and Y directions
Terminal Resistance 440 1100 Ω X
100 420 Ω Y
Insulation Resistance 25 DC 25V
Voltage 10 V DC
Chattering 10 ms 100kΩ pull-up
Transparency 78 % JIS K7105

10.2. Mechanical characteristics

Note 1: Force test condition, Input DC 5V on X direction, Drop off Polyacetal Stylus (R0.8), until output voltage stabilize, then get the R8.0mm Silicon rubber and do finger Activation force test. Next step, 9 points.

Note 2: Measurement surface area conditions, Scratch 100,000 times straight line on the film with a stylus change every 20,000 times with Force: 250gf, Speed: 60mm/sec by R0.8 polaceteal stylus.

Note 3: Pitting test, Pit 1, 000, 000 times on the film with R0.8 silicon rubber with Force: 250gf and Speed: 2 times/sec.

10.2.1 for capacitive touch panel

DESCRIPTION INL SPECIFICATION REMARK
Touch Panel Size 7.0  inch  
Outline Dimension (OD) 164.4mm x 99.45mm Cover Lens Outline
Outline Dimension (OD) -UxTouch 179.96mm x 119.00mm Cover Lens Outline
Product Thickness 2.3mm  
Glass Thickness 1.1mm  
Ink View Area 155.08mm x 87.42mm  
Sensor Active Area 156.68mm x 88.52mm  
Input Method 5 Finger  
Activation Force Touch  
Surface Hardness ≥7H  

10.2.2. For resistive touch panel

Note 1: Force test condition, Input DC 5V on X direction, drop off Polyacetal Stylus (R0.8), until output voltage stabilize, then get the R8.0mm Silicon rubber and do finger Activation force test. Next step, 9 points.

ITEM VALUE UNIT REMARK
Min. Typ. Max.
Activation Force 20 100 gf Note 1
Durability-Surface Scratching Write 100,000 characters Note 2
Durability-Surface Pitting 1,000,000 touches Note 3
Surface Hardness 3 H JIS K5400

10.3. Capacitive touch panel parameters

10.3.1. Interface timing characteristics

PARAMETER MIN MAX UNIT
SCL Frequency 0 400 kHz
Bus Free Time Between a STOP and START Condition 4.7 / μs
Hold Time (repeated) START Condition 4.0 / μs
Data Setup Time 250 / ns
Setup Time for Repeated START Condition 4.7 / μs
Setup Time for STOP Condition 4.0 / μs

10.3.2. I2C Read/Write Interface description

Figure 11. Write N bytes to I2C slave

Figure 12. Set Data Address

Figure 13. Read X bytes from I2C Slave

10.3.3. Communication of the I2C interface with host

Figure 14. Communication of the I2C interface with Host

10.3.4. Touch data read protocol

ADDRESS NAME BIT7 BIT6 BIT5 BIT4 BIT3 BIT2 BIT1 BIT0 HOST ACCESS
00h DEVIDE_MODE   Device Mode[2:0]   RW
01h GEST_ID Gesture ID[7:0] R
02h TD_STATUS     Number of touch points[3:0] R
03h TOUCH1_XH 1st Event Flag     1st Touch X Position[11:8] R
04h TOUCH1_XL 1st Touch X Position[7:0] R
05h TOUCH1_YH 1st Touch ID[3:0] 1st Touch X Position[11:8] R
06h TOUCH1_YL 1st Touch Y Position[7:0] R
07h                   R
08h                   R
09h TOUCH2_XH 2nd Event Flag     2nd Touch X Position[11:8] R
0Ah TOUCH2_XL 2nd Touch X Position[7:0] R
0Bh TOUCH2_YH 2nd Touch ID[3:0] 2nd Touch X Position[11:8] R
0Ch TOUCH2_YL 2nd Touch Y Position[7:0] R
0Dh                   R
0Eh                   R
0Fh TOUCH3_XH 3rd Event Flag     3rd Touch X Position[11:8] R
10h TOUCH3_XL 3rd Touch X Position[7:0] R
11h TOUCH3_YH 3rd Touch ID[3:0] 3rd Touch X Position[11:8] R
12h TOUCH3_YL 3rd Touch Y Position[7:0] R
13h                   R
14h                   R
15h TOUCH4_XH 4th Event Flag     4th Touch X Position[11:8] R
16h TOUCH4_XL 4th Touch X Position[7:0] R
17h TOUCH4_YH 4th Touch ID[3:0] 4th Touch X Position[11:8] R
18h TOUCH4_YL 4th Touch Y Position[7:0] R
19h                   R
1Ah                   R
1Bh TOUCH5_XH 5th Event Flag     5th Touch X Position[11:8] R
1Ch TOUCH5_XL 5th Touch X Position[7:0] R
1Dh TOUCH5_YH 5th Touch ID[3:0] 5th Touch X Position[11:8] R
1Eh TOUCH5_YL 5th Touch Y Position[7:0] R

10.3.5 Data description

DEVICE_MODE

This register is the device mode register, configure it to determine the current mode of the chip.

ADRESS BIT ADRESS REGISTER NAME DESCRIPTION
00h 6:4 Device Mode [2:0] 000b Work Mode

100b Factory Mode – Read Raw Data

GEST_ID

This register describes the gesture of a valid touch.

ADRESS BIT ADRESS REGISTER NAME DESCRIPTION
01h 7:0 Gesture ID [7:0] Gesture ID

0x10 Move Up

0x14 Move Down

0x18 Move Right

0x48 Zoom In

0x49 Zoom Out

0x00 No Gesture

TD_STATUS

This register is the Touch Data status register.

ADRESS BIT ADRESS REGISTER NAME DESCRIPTION
02h 3:0 Number of Touch Points [2:0] How Many Points Detected

1-5 is Valid

7:4    

TOUCHn_XH(n:1-10)

This register describes MSB of the X coordinate of the nth touch point and the corresponding event flag.

ADRESS BIT ADRESS REGISTER NAME DESCRIPTION
03h

~

39h

7:6 Event Flag 00b: Put Down

01b: Put Up

10b: Contact

11b: Reserved

5:4   Reserved
3:0 Touch X Position [11:8] MSB of Touch X Position in Pixels

TOUCHn_XL(n:1-10)

This register describes LSB of the X coordinate of the nth touch point.

ADRESS BIT ADRESS REGISTER NAME DESCRIPTION
04h

~

3Ah

7:0 Touch X Position [7:0] LSB of the Touch X Position in Pixels

TOUCHn_YH(n:1-10)

This register describes MSB of the Y coordinate of the nth touch point and corresponding touch ID.

ADRESS BIT ADRESS REGISTER NAME DESCRIPTION
05h

~

3Bh

7:4 Touch ID[3:0] Touch ID of Touch Point
3:0 Touch X Position [11:8] MSB of Touch Y Position in Pixels

TOUCHn_YL(n:1-10)

This register describes LSB of the Y coordinate of the nth touch point.

ADRESS BIT ADRESS REGISTER NAME DESCRIPTION
05h

~

3Bh

7:0 Touch X Position [7:0] LSB of the Touch Y Position in Pixels

10.3.6 Interrupt Trigger Mode

Figure 15. Interrupt triger mode timing

11. Inspection

Standard acceptance/rejection criteria for TFT module.

11.1. Inspection condition

Ambient conditions:

  •       Temperature: 25±°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°

11.2 Inspection standard

Item Criterion
Black spots, white spots, light leakage, Foreign Particle (round Type)

*Spots density: 10 mm

Size < 5”
Average Diameter Qualified Qty
D < 0.2 mm Ignored
0.2 mm < D < 0.3 mm 3
0.3 mm < D < 0.5 mm 2
0.5 mm < D 0
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
LCD black spots, white spots, light leakage (line Type)

*Spots density: 10 mm

Size < 5”
Length Width Qualified Qty
W< 0.02 Ignored
L < 3.0 0.02 < W <0.05 2
L < 2.5 0.05 < W <0.08
0.08 < W 0
Size >= 5”
Length Width Qualified Qty
W< 0.02 Ignored
L < 3.0 0.02 < W <0.05 4
L < 2.5 0.05 < W <0.08
0.08 < W 0
Item Criterion
Clear spots
Size < 5”
Average Diameter Qualified Qty
D < 0.2 mm Ignored
0.2 mm < D < 0.3 mm 3
0.3 mm < D < 0.5 mm 2
0.5 mm < D 0
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

Polarizer bubbles
Size < 5”
Average Diameter Qualified Qty
D < 0.2 mm Ignored
0.2 mm < D < 0.5 mm 3
0.5 mm < D < 1 mm 2
1 mm < D 0
Total Q’ty 3
Size >= 5”
Average Diameter Qualified Qty
D<0.25 mm Ignored
0.25 mm < D < 0.5 mm 3
0.5 mm < D 0
Electrical Dot Defect
Size < 5”
item Qualified Qty
Black do defect 4
Bright dot defect 2
Total Dot 5
Size >= 5”
item Qualified Qty
Black do defect 5
Bright dot defect 2
Total Dot 5
Item Criterion
Touch panel spot
Size < 5”
Average Diameter Qualified Qty
D < 0.2 mm Ignored
0.2 mm < D < 0.4 mm 5
0.4 mm < D < 0.5 mm 2
0.5 mm < D 0
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 White Line Scratch
Size < 5”
Length Width Qualified Qty
W< 0.02 Ignored
L < 3.0 0.02 < W <0.05 2
L < 2.5 0.05 < W <0.08
0.08 < W 0
Size >= 5”
Length Width Qualified Qty
W< 0.03 Ignored
L < 5.0 0.03 < W <0.05 2
0.05 < W 0

12. Reliability test

NO. TEST ITEM TEST CONDITION
1 High Temperature Storage 80±2°C/240hours
2 Low Temperature Storage -30±2°C/240hours
3 High Temperature Operating 70±2°C/240hours
4 Low Temperature Operating -20±2°C/240hours
 

5

Temperature Cycle -30±2°C~25~80±2°C × 20 cycles

(30min.) (5min.)    (30min.)

6 Damp Proof Test 60°C ±5°C × 90%RH/240hours
7 Vibration Test Frequency 10Hz~55Hz

Amplitude of vibration: 1.5mm

Sweep: 10Hz~55Hz~10Hz

X, Y, Z 2 hours for each direction.

8 Package Vibration Test Random vibration :0.15G*G/HZ from

5-200HZ, -6dB/Octave from 200-500HZ

of each direction of X.Y. Z

(6 hours for total)

9 Package Drop Test Height:60 cm

1 corner,3 edges,6 surfaces

10 ESD Test Air: ±8KV 150pF/330Ω 5 times

Contact: ±4KV 150pF/330Ω 5 times

11 Mechanical Shock 100G 6ms, X, Y, Z 3 times for each

direction

Note 1: Without water condensation.

Note 2: The function test shall be conducted after 2 hours storage at the room temperature and humidity after removed from the test chamber.

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