ETC2 N32905U1DN Arm926-based media processor Datasheet

N3290x
Data Sheet
ARM926-based Media Processor
Nuvoton Technology Corp.
http://www.nuvoton.com/
1
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
The information in this document is subject to change without notice.
The Nuvoton Technology Corp. shall not be liable for technical or editorial errors or omissions
contained herein; nor for incidental or consequential damages resulting from the furnishing,
performance, or use of this material.
This documentation may not, in whole or in part, be copied, photocopied, reproduced, translated, or
reduced to any electronic medium or machine readable form without prior consent, in writing, from the
Nuvoton Technology Corp.
Nuvoton Technology Corp. All rights reserved.
Nuvoton Technology Corp.
http://www.nuvoton.com/
2
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
N3290x
ARM926-based Media Processor
Table of Contents
1.
GENERAL DESCRIPTION ................................................................................................................................... 5
1.1
Applications .............................................................................................................................................. 5
2.
FEATURES........................................................................................................................................................... 6
3.
PIN DIAGRAM .................................................................................................................................................... 12
4.
5.
6.
7.
3.1
N32901U1DN (LQFP-128) ..................................................................................................................... 12
3.2
N32901U2DN (LQFP-128) ..................................................................................................................... 13
3.3
N32903U1DN (LQFP-128) ..................................................................................................................... 14
3.4
N32905U1DN (LQFP-128) ..................................................................................................................... 15
3.5
N32905U2DN (LQFP-128) ..................................................................................................................... 16
3.6
N32903R1DN (TQFP-64) ....................................................................................................................... 17
3.7
N32901R1DN (LQFP-64) ....................................................................................................................... 18
PIN DESCRIPTION ............................................................................................................................................ 19
4.1
Pin Description & Cross Reference ........................................................................................................ 19
4.2
Pin Type Description .............................................................................................................................. 28
ELECTRICAL SPECIFICATION ......................................................................................................................... 29
5.1
Absolute Maximum Rating ..................................................................................................................... 29
5.2
DC Characteristics (Normal I/O) ............................................................................................................ 29
5.3
Audio DAC Characteristics ..................................................................................................................... 30
5.4
ADC Characteristics.................................................................................................................................. 31
5.5
AC Characteristics (Digital Interface) ......................................................................................................... 31
5.6
Power-on Sequence ............................................................................................................................... 40
5.7
Thermal characteristics of LQFP-128 Package ..................................................................................... 40
ORDERING INFORMATION .............................................................................................................................. 41
6.1
Part Number Definition ........................................................................................................................... 41
6.2
Difference between N32901U1DN, N32903U1DN, N32905U1DN and N32905U2DN.......................... 41
PACKAGE OUTLINE .......................................................................................................................................... 42
Nuvoton Technology Corp.
http://www.nuvoton.com/
3
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
8.
7.1
LQFP-128 (14X14X1.4mm body, 0.4mm pitch) ..................................................................................... 42
7.2
TQFP-64 (10X10X1.0mm body, 0.5mm pitch)....................................................................................... 43
7.3
LQFP-64 (10X10X1.4mm body, 0.5mm pitch) ....................................................................................... 46
REVISION HISTORY.......................................................................................................................................... 47
Nuvoton Technology Corp.
http://www.nuvoton.com/
4
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
1. GENERAL DESCRIPTION
The N3290xUxDN is built on the ARM926EJ-S CPU core and integrated with JPEG codec, CMOS sensor interface,
32-channel SPU (Sound Processing Unit), ADC, DAC, for meeting various kinds of application needs while saving the
BOM cost. The combination of ARM926 @ 200MHz, synchronous DRAM, 2D BitBLT accelerator, CMOS image
sensor interface, LCD panel interface, USB 1.1 Host & USB2.0 HS Device makes the N3290xUxDN the best choice
for LCD ELA devices.
Maximum resolution for the N3290xUxDN is XVGA (1,024x768) @ TFT LCD panel. The 2D BitBLT accelerator
accelerates the graphic compution to make the rendering smooth and off-load CPU to save power consumption.
The N3290xUxDN is well-positioned in terms of cost/performance for the applications which bitmap graphics is
extensively used or CMOS Image Sensor (CIS) interface is required.
The N3290xUxDN is for application under Linux OS and leverage the driver availability of emerging functionalities like
Wi-Fi, browser, etc. On the other hand, the open source code environment also give the product development more
flexible.
To meet the different requirement of the overall system BOM cost, the different size of DRAM is stacked with N3290x
main SoC into one package, that is, multi-chip package (MCP). The N32901U1DN is particularly designed with the
128-pin LQFP package and the 1Mbitx16 SDRAM is stacked inside the MCP. The N32903U1DN is particularly
designed with the 128-pin LQFP package and the 4Mbitx16 SDRAM is stacked inside the MCP. The 16Mbitx16
SDRAM is stacked inside the N32905UxDN MCP to ensure higher performance and minimize the system design
efforts, like EMI & noise coupling. Total BOM cost could be reduced by employing 2-layer PCB along with the
elimination of damping resistors, EMI prevention components, etc. Advantages including, but not limited to, less PCB
space, shorter lead time, and higher / reliable production yield.
1.1
Applications
 ELA (Educational Learning Aid)
 HMI
 Security
 Home Appliance
 Advertisement
Nuvoton Technology Corp.
http://www.nuvoton.com/
5
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
2. FEATURES
 CPU



ARM926EJ-S 32-bit RISC CPU with 8KB I-Cache & 8KB D-Cache
Frequency up to [email protected] core power operation voltage
JTAG interface supported for development and debugging
 Internal SRAM & ROM

8KB internal SRAM and 16KB IBR internal booting ROM supported

IBR booting messages displayed by UART console for debugging supported

Different system booting modes supported:
 Memory card

SD card

SD-to-NAND flash bridge
 Raw NAND Flash
 SPI Flash
 USB
 EDMA (Enhanced DMA)

Totally 5 DMA channels supported
 4 peripheral DMA channels for transfer between memory and on-chip peripherals,
such as ADC, UART and SPI
 One dedicated channel for memory-to-memory transfer

Byte, half-word and word data width types supported

Single and burst transfer modes supported

Block transfer supported in memory-to-memory transfer channel

Color format transformation supported in memory-to-memory transfer channel
 Source color format could be RGB555, RGB565 and YCbCr422
 Destination color format could be RGB555, RGB565 and YCbCr422

Auto reload supported for continuous data transfer

Interrupt generation supported in the half-of-transfer or end-of-transfer
 Capture (CMOS Sensor I/F)

CCIR601 & CCIR656 interfaces supported for connection to CMOS image sensor

Resolution up to 2M pixel for Still Image Capture, 640x480 (VGA) resolution for MJPEG
Video Streaming

YUV422 and RGB565 color format supported for data-in from CMOS sensor

YUV422, RGB565, RGB555 and Y-only color format supported for data storing to system
memory

Planar and packet data formats supported for data storing to system memory

Image cropping supported with the cropping window up to 4096x2048

Image scaling-down supported
 Vertical and horizontal scaling-down for preview mode supported
 The scaling factor is N/M
 Two pairs of configurable 8-bit N and 8-bit M for vertical and horizontal scalingdown
 The value of N has to equal to or less than M
 Frame rate control supported

Combines two interlace fields to a single frame supported for data in from TV-decoder
 JPEG Codec

Baseline Sequential mode JPEG codec function compliant with ISO/IEC 10918-1
Nuvoton Technology Corp.
http://www.nuvoton.com/
6
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET


international JPEG standard supported.
Planar Format
 Support to encode interleaved YCbCr 4:2:2/4:2:0 and gray-level (Y only) format
image
 Support to decode interleaved YCbCr 4:4:4/4:2:2/4:2:0/4:1:1 and gray-level (Y only)
format image
 Support to decode YCbCr 4:2:2 transpose format
 Support arbitrary width and height image encode and decode
 Support three programmable quantization-tables
 Support standard default Huffman-table and programmable Huffman-table for decode
 Support arbitrarily 1X~8X image up-scaling function for encode mode
 Support down-scaling function for encode and decode modes
 Support specified window decode mode
 Support quantization-table adjustment for bit-rate and quality control in encode
mode
 Support rotate function in encode mode
Packet Format
 Support to encode interleaved YUYV format input image, output bitstream 4:2:2 and
4:2:0 format
 Support to decode interleaved YCbCr 4:4:4/4:2:2/4:2:0 format image
 Support decoded output image RGB555, RGB565 and RGB888 formats.
 The encoded JPEG bit-stream format is fully compatible with JFIF and EXIF standards
 Support arbitrary width and height image encode and decode
 Support three programmable quantization-tables
 Support standard default Huffman-table and programmable Huffman-table for decode
 Support arbitrarily 1X~8X image up-scaling function for encode mode
 Support down-scaling function 1X~ 16X for Y422 and Y420, 1X~ 8X for Y444 for
decode mode
 Support specified window decode mode
 Support quantization-table adjustment for bit-rate and quality control in encode
mode
 2D Accelerator

BitBLT operation
 2x2 transform matrix with effects:
 Scale
 Translate
 Rotate
 Shear
 Alpha blending and color transformation supported
 Source format for operations: supported color format of source bitmap

Fill
 Rectangle Fill with single color – ARGB8888
 Fill with blending effect supported

Supported color formats
 Source
 16 bits/pixel – RGB565
 32 bits/pixel – ARGB8888
 1 bit/pixel, 2 bits/pixel, 4 bits/pixel, 8 bits/pixel with RGB color palette
 Destination
 16 bits/pixel – RGB565
 32 bits/pixel – ARGB8888
Nuvoton Technology Corp.
http://www.nuvoton.com/
7
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
 VPOST

8/16/18/24-bit SYNC type and 8/9/16/18/24-bit MPU type TFT LCD supported

Color format supported:
 YCbCr422, RGB565, RGB555, and RGB888 color formats supported for data in
 YCbCr422, RGB565, RGB555, and RGB888 color formats supported for data out

XGA (1024x768), SVGA (800x600), WVGA (800x480), D1 (720X480), VGA (640x480),
WQVGA (480x272), QVGA (320x240) and HVGA (640x240) resolution supported
 The maximum resolution is up to D1 (720X480) for TV output
 The maximum resolution is up to 1024X768 for TFT LCD panel for still image
displaying
 The maximum resolution is up to 480x272 for TFT LCD panel for MJPEG video
displaying up to 25fps.

Display scaler – to fit different size of LCD panels
 Horizontal: At most 4.0x scale
 Vertical: At most 3.0x scale

For SYNC type LCD:
 For 8-bit bus
 CCIR601 YCbCr422 packet mode (NTSC/PAL) supported
 CCIR601 RGB Dummy mode (NTSC/PAL) supported
 CCIR656 interface supported
 RGB Through mode supported
 For 16/18/24-bit bus
 Parallel pixel data output mode (1-pixel/1-clock)

NTSC/PAL interlace & non-interlace output supported

Color format transform supported:
 Color format transform between YCbCr422 and RGB565
 Color format transform from YCbCr422 to RGB888

TV encoder supported

Dual screen, outputs to TV and LCD simultaneously with same content, supported
 LCD panel should be 320X240 MPU-type, or 8-bit SYNC-type LCD panel with TV
timing

Notch filter for NTSC supported to remove the rainbow color effect

Support OSD function to overlap system information like battery life, brightness tuning,
volume tuning or muting, etc.
 Frame Switch Controller

Frame relation controlled between VPOST and Capture supported

2 modes supported to switch Frame Buffer Base
 Frame Ratio Mode (16 selectable ratio)
 Frame sync mode

Double/triple buffers supported
 SPU (Sound Processing Unit)

32 stereo channels supported

PCM8/PCM16/4-bit MDPCM/TONE source format supported

7-bit volume control supported for each of 32 channels

5-bit pan control supported for each L/R of 32 channels

10-band equalizer supported

Special code supported for loop playing and event detection
Nuvoton Technology Corp.
http://www.nuvoton.com/
8
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
 Audio DAC

16-bit stereo DAC supported with headphone driver output

H/W volume control supported
 I2S Controller

I2S interface supported to connect external audio codec

16/18/20/24-bit data format supported
 Storage Interface Controller

Interface to NAND Flash:
 8-bit data bus width supported
 SLC and MLC type NAND Flash supported
 512B, 2KB, 4KB, and 8KB page size NAND Flash supported
 ECC4, ECC8, ECC12 and ECC15 algorithm supported for ECC generation, error
detection and error correction
 PBA-NAND flash supported

Interface to SD/MMC/SDIO/SDHC/micro-SD cards supported
 SD-to-NAND flash bridge supported

DMA function supported to accelerate the data transfer between system memory and
NAND Flash or SD/MMC/SDIO/SDHC/micro-SD
 USB




Device Controller
USB2.0 HS (High-Speed) x 1 port
6 configurable endpoints supported
Control, Bulk, Interrupt and Isochronous transfers supported
Suspend and remote wakeup supported
 USB Host Controller

USB1.1 Host one H/W Engine, two pin locations.

Fully compliant with USB Revision 1.1 specification

Open Host Controller Interface (OHCI) Revision 1.0 compatible

Full-speed (12Mbps) and low-speed (1.5Mbps) USB devices supported

Control, Bulk, Interrupt and Isochronous transfers supported
 Timer & Watch-Dog Timer

Two 32-bit with 8-bit pre-scalar timers supported

One programmable 24-bit Watch-Dog Timer supported
 PWM







4 PWM channel outputs supported
16-bit counter supported for each PWM channel
Two 8-bit pre-scalars supported and each pre-scalar shared by two PWM channels
Two clock-dividers supported and each divider shared by two PWM channels
Two Dead-Zone generators supported and each generator shared by two PWM channels
Auto reloaded mode and one-shot pulse mode supported
Capture function supported
 UART

A high speed UART supported:
 Baud rate is up to 1M bps
 4 signals TX, RX, CTS and RTS supported
Nuvoton Technology Corp.
http://www.nuvoton.com/
9
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET

 SPI

 I2C



A normal UART supported:
 Baud rate is up to 115.2K bps
 2 signals TX and RX supported only
One SPI controller is supported
 Both master and slave mode are supported in SPI interface
 Two chip selection signals for two SPI devices
One I2C channel supported
Compatible with Philips’s I2C standard and only master mode supported
Multi-master operation supported
 Advanced Interrupt Controller

Total 32 interrupt source supported

Configurable interrupt type:
 Low-active level triggered interrupt
 High-active level triggered interrupt
 Low-active edge (falling edge) triggered interrupt
 High-active edge (rising edge) triggered interrupt

Individual interrupt mask bit for each interrupt source

8 different priority levels supported

Daisy-chain priority mechanism supported for interrupts with same priority level

Low priority interrupt automatic masking supported for interrupt nesting
 RTC









Independent power plane supported
32.768 KHz crystal oscillation circuit supported
Time counter (second, minute, hour) and Calendar counter (day, month, year) supported
Alarm supported (second, minute, hour, day, month and year)
12/24-hour mode and Leap year supported
Alarm to wake chip up from Standby mode or from Power-down mode supported
Wake chip up from Power-down mode by input pin supported
Power-off chip by register setting supported
Power-on timeout is supported for low battery protection
 GPIO




80 programmable general purpose I/Os supported and separated into 5 groups
Individual configuration supported for each I/O signal
Configurable interrupt control functions supported
Configurable de-bounce circuit supported for interrupt function
 ADC

Multi-channel, 10-bit ADC supported
 2 channels dedicated for 4-wire resistive touch sensor inputs
 2 channels dedicated for Audio ADC with Microphone pre-Amp & AGC
 3 channels reserved for various purposes, like LVD (Low Voltage Detection), keypad
input, and light sensor
 Input voltage range from 0V ~ 3.3V supported
Nuvoton Technology Corp.
http://www.nuvoton.com/
10
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET



Maximum 25MHz input clock supported
Maximum 400K/s conversion rate supported
LVR (Low Voltage Reset) supported
 Power Management

Advanced power management including Power Down, Deep Standby, CPU Standby, and
Normal Operating modes
 Normal Operating Mode
 Core power is 1.8V and chip is in normal operation
 CPU Standby Mode
 Core power is 1.8V and only ARM CPU clock is turned OFF
 Deep Standby Mode
 Core power is 1.8V and all IP clocks are turned OFF
 Power Down Mode
 Only the RTC power is ON. Other 3.3V and 1.8V power are OFF
 Software Support

Development Tools
 Bootloader / Diagnostic Program / NAND Writer Program: ADS 1.2 or RVDS 2.x or 3.x
 Linux Kernel (2.6.17.14) / System Manager: GCC 4.2
 TurboWriter / Sync Tool: Microsoft VC 6.0

NAND Flash File System
 FAT12, FAT16 and FAT32 with long filename are supported
 Hidden disk is supported
 RAM disk is supported

S/W audio Library
 Decoders with ADPCM / MP3 / ACC / OGG / WMA format support
 32-polyphony Wavetable MIDI synthesizer
 Programmable sampling rate and target bit rate

USB Driver
 MS (Mass Storage) Class
 HID (Human Interface Device) Class
 Operating Voltage

I/O: 3.3V

Core: 1.8V for 200MHz
 Package

LQFP-128 (MCP, stacked with DDR @ 1.8V and SDR @ 1.8V)
Nuvoton Technology Corp.
http://www.nuvoton.com/
11
Release Date: May. 2013
Rev. A5.1
GPE[2] /
GPE[3] / SDDAT[1]
GPE[5] /
GPE[6] /
SDDAT[3]
GPE[7] /
SDCLK
SDDAT[0]
VDD18
MVSSQ
MVDDQ
MVSSQ
MVDDQ
MVDD
MVDD
Nuvoton Technology Corp.
http://www.nuvoton.com/
10
SDCMD
XIN
XOUT
20
MVREF
UD_VDD18
UD_VSS
UD_DM
12
MIC_IN_P /
MIC_IN_M /
ISCK
GPD[12] / SPI0_CLK
GPD[13] / SPI0_CS0_
GPD[14] /
SPI0_DI
GPD[15] /
SPI0_DO
GPE[4] / SDDAT[2]
60
SPCLK
SCLKO
50
40
GPB[1] / SDDAT1[0] / UHL_DM1 /
GPB[0] / SDDAT1[1] / UHL_DP1 /
GPB[14] / LMVSYNC /
GPB[13] /WDT_RST_ /
GPB[15] /
LVDATA[16]
LVDATA[15]
LVDATA[14]
LVDATA[13]
LVDATA[12]
LVDATA[11]
LVDATA[10]
LVDATA[9]
LVDATA[8]
LVDATA[7]
LVDATA[6]
LVDATA[5]
LVDATA[4]
LVDATA[3]
LVDATA[2]
LVDATA[1]
LVDATA[0]
LVDE
LVSYNC
LHSYNC
VDD18
LPCLK
VDD33
ADC_VSS33
ADC_TP_YM
ADC_TP_XM
ADC_TP_XP
ADC_TP_YP
ADC_VDD33
ADC_AIN[0]
ADC_AIN[1]
ADC_AIN[2]
100
110
120
128
/ SDDAT2[0]/ GPE[9]
/ GPE[10]
/ GPE[11]
/ SDCLK2
/ GPD[7]
/ SDCMD2
/ GPD[8]
/ SDDAT2[3]/ GPD[5]
/ SDDAT2[2]/ GPD[6]
/ SDDAT2[1]/ GPE[8]
/ I2S_MCLK / SDCLK1
/ I2S_BCLK / SDCMD1
/ SDDAT1[3]
/ I2S_WS
/ I2S_DOUT / SDDAT1[2]
/ I2S_DIN / GPB[6]
/ LMVSYNC / GPA[11]
/ SPI1_CS1_ / GPA[10]
ADAC_HPOUT_R
ND[1]
ND[0]
GPA[7]
VDD18
VDD33
ADAC_VDD33
ADAC_VREF
ADAC_AVSS33
SHSYNC
SVSYNC
SFIELD
SPDATA[0]
SPDATA[1]
URRXD
URTXD
VDD33
NCS0_
VSS
NCS1_
NALE
NCLE
NRE_
NWR_
NBUSY0_
NBUSY1_
ND[7]
ND[6]
ND[5]
ND[4]
ND[3]
ND[2]
/ GPB[2]
/ GPB[3]
/ GPB[4]
/ GPB[5]
3.1
SPDATA[0] /
GPC[7] /
GPC[6] /
GPC[5] /
GPC[4] /
GPC[3] /
GPC[2] /
GPC[1] /
GPC[0] /
GPD[11] / WDT_RST_ /
GPD[10] /
GPD[9] /
SHSYNC /
SPDATA[7] /
SPDATA[6] /
SPDATA[5] /
SPDATA[4] /
SPDATA[3] /
SPDATA[2] /
SPDATA[1] /
3.
N32901U1DN
LQFP-128
GPE[0] /
GPC[15] /
GPC[14] /
GPC[13] /
GPC[12] /
GPC[11] /
GPC[10] /
GPC[9] /
GPC[8] /
N3290X DATASHEET
PIN DIAGRAM
N32901U1DN (LQFP-128)
ISDA
1
MVSSQ
ADAC_HPOUT_L
_
ADAC_HPVDD33
90
80
UD_DP
UD_VDD33
UD_REXT
70
30
VSS
GPE[1] / SVSYNC / LVDATA[17]
MVDDQ
MVDDQ
MVSSQ
MVREF
ADAC_HPVSS33
MVSS
VDD18
UD_CDET
TRST_ / HUR_RTS / SPI0_CS1_/ GPD[4]
TDO / HUR_CTS / PWM3
/ GPD[3]
TDI
TMS
/ HUR_RXD / PWM2
TCK
/ SPI1_CS1_/ PWM0
RST_
/ HUR_TXD / PWM1
/ GPD[2]
/ GPD[1]
GPA[0]
/ GPD[0]
GPA[1] / SD_CD_
GPA[2] / LMVSYNC
GPA[3] / UHL_DP1
GPA[4] / UHL_DM1
GPA[5] / SPI0_CS1_
VDD33
GPA[6] / SPI1_CS1_
RTC_VDD
RTC_RPWR
RTC_RWAKE_
RTC_XOUT
ADC_AIN[3]
RTC_XIN
MVSS
Release Date: May. 2013
Rev. A5.1
LVDATA[16]
LVDATA[15]
LVDATA[14]
LVDATA[13]
LVDATA[12]
LVDATA[11]
LVDATA[10]
LVDATA[9]
LVDATA[8]
LVDATA[7]
LVDATA[6]
LVDATA[5]
LVDATA[4]
LVDATA[3]
LVDATA[2]
LVDATA[1]
LVDATA[0]
LVDE
LVSYNC
LHSYNC
VDD18
GPB[15] /
LPCLK
VDD33
ADC_VSS33
ADC_TP_YM
ADC_TP_XM
ADC_TP_XP
ADC_TP_YP
ADC_VDD33
ADC_AIN[0]
MIC_IN_P /
MIC_IN_M / ADC_AIN[1]
ADC_AIN[2]
SHSYNC /
SPDATA[7] /
SPDATA[6] /
SPDATA[5] /
SPDATA[4] /
SPDATA[3] /
SPDATA[2] /
SPDATA[1] /
SPDATA[0] /
GPC[7] /
GPC[6] /
GPC[5] /
GPC[4] /
GPC[3] /
GPC[2] /
GPC[1] /
GPC[0] /
GPD[11] / WDT_RST_ /
GPD[10] /
GPD[9] /
ISCK
GPD[12] / SPI0_CLK
GPD[13] / SPI0_CS0_
GPD[14] /
SPI0_DI
GPD[15] /
SPI0_DO
GPE[4] / SDDAT[2]
GPE[2] /
GPE[3] / SDDAT[1]
GPE[5] /
GPE[6] /
SDDAT[3]
GPE[7] /
SDCLK
SDDAT[0]
VDD18
MVSSQ
MVDDQ(3.3V)
MVSSQ
MVDDQ(3.3V)
MVDD(3.3V)
MVDD
Nuvoton Technology Corp.
http://www.nuvoton.com/
10
SDCMD
XIN
XOUT
20
NC
UD_VDD18
UD_VSS
UD_DM
13
60
SPCLK
SCLKO
50
40
GPB[1] / SDDAT1[0] / UHL_DM1 /
GPB[0] / SDDAT1[1] / UHL_DP1 /
GPB[14] / LMVSYNC /
GPB[13] /WDT_RST_ /
ND[1]
ND[0]
GPA[7]
VDD18
TVDAC_VDD33
TVDAC_VREF
TVDAC_REXT
TVDAC_COMP
TVDAC_TVOUT
TVDAC_VSS33
ADAC_VDD33
ADAC_VREF
ADAC_AVSS33
100
120
ADAC_HPOUT_R
/ SDDAT2[0]/ GPE[9]
/ GPE[10]
/ GPE[11]
/ SDCLK2
/ GPD[7]
/ SDCMD2
/ GPD[8]
/ SDDAT2[3]/ GPD[5]
/ SDDAT2[2]/ GPD[6]
/ SDDAT2[1]/ GPE[8]
110
/ LMVSYNC / GPA[11]
/ SPI1_CS1_ / GPA[10]
URRXD
URTXD
VDD33
NCS0_
VSS
NCS1_
NALE
NCLE
NRE_
NWR_
NBUSY0_
NBUSY1_
ND[7]
ND[6]
ND[5]
ND[4]
ND[3]
ND[2]
128
3.2
N32901U2DN
LQFP-128
GPE[0] /
GPC[15] /
GPC[14] /
GPC[13] /
GPC[12] /
GPC[11] /
GPC[10] /
GPC[9] /
GPC[8] /
N3290X DATASHEET
N32901U2DN (LQFP-128)
1
ISDA
MVSSQ
ADAC_HPOUT_L
_
ADAC_HPVDD33
90
80
UD_DP
UD_VDD33
UD_REXT
70
30
VSS
GPE[1] / SVSYNC / LVDATA[17]
MVDDQ (3.3V)
MVDDQ (3.3V)
MVSSQ
NC
ADAC_HPVSS33
MVSS
VDD18
UD_CDET
TRST_ / HUR_RTS / SPI0_CS1_/ GPD[4]
TDO / HUR_CTS / PWM3
/ GPD[3]
TMS
TDI
TCK
RST_
/ HUR_RXD / PWM2
/ HUR_TXD / PWM1
/ SPI1_CS1_/ PWM0
/ GPD[1]
/ GPD[0]
/ GPD[2]
GPA[0]
GPA[1] / SD_CD_
GPA[2] / LMVSYNC
GPA[3] / UHL_DP1
GPA[4] / UHL_DM1
GPA[5] / SPI0_CS1_
GPA[6] / SPI1_CS1_
VDD33
RTC_VDD
RTC_RPWR
RTC_RWAKE_
RTC_XOUT
ADC_AIN[3]
RTC_XIN
MVSS
Release Date: May. 2013
Rev. A5.1
SDDAT[3]
SDCMD
GPE[7] /
SDCLK
SDDAT[0]
VDD18
MVSSQ
MVDDQ
MVSSQ
MVDDQ
MVDD
MVDD
Nuvoton Technology Corp.
http://www.nuvoton.com/
10
XIN
XOUT
20
MVREF
UD_VDD18
UD_VSS
UD_DM
14
MIC_IN_P /
MIC_IN_M /
ISCK
GPD[12] / SPI0_CLK
GPD[13] / SPI0_CS0_
GPD[14] /
SPI0_DI
GPD[15] /
SPI0_DO
GPE[4] / SDDAT[2]
60
GPE[2] /
GPE[3] / SDDAT[1]
GPE[5] /
GPE[6] /
50
40
SPCLK
SCLKO
GPB[15] /
LVDATA[16]
LVDATA[15]
LVDATA[14]
LVDATA[13]
LVDATA[12]
LVDATA[11]
LVDATA[10]
LVDATA[9]
LVDATA[8]
LVDATA[7]
LVDATA[6]
LVDATA[5]
LVDATA[4]
LVDATA[3]
LVDATA[2]
LVDATA[1]
LVDATA[0]
LVDE
LVSYNC
LHSYNC
VDD18
LPCLK
VDD33
ADC_VSS33
ADC_TP_YM
ADC_TP_XM
ADC_TP_XP
ADC_TP_YP
ADC_VDD33
ADC_AIN[0]
ADC_AIN[1]
ADC_AIN[2]
GPB[1] / SDDAT1[0] / UHL_DM1 /
GPB[0] / SDDAT1[1] / UHL_DP1 /
GPB[14] / LMVSYNC /
GPB[13] /WDT_RST_ /
SPDATA[0] /
GPC[7] /
GPC[6] /
GPC[5] /
GPC[4] /
GPC[3] /
GPC[2] /
GPC[1] /
GPC[0] /
GPD[11] / WDT_RST_ /
GPD[10] /
GPD[9] /
SHSYNC /
SPDATA[7] /
SPDATA[6] /
SPDATA[5] /
SPDATA[4] /
SPDATA[3] /
SPDATA[2] /
SPDATA[1] /
100
110
120
128
/ SDDAT2[0]/ GPE[9]
/ GPE[10]
/ GPE[11]
/ SDCLK2
/ GPD[7]
/ SDCMD2
/ GPD[8]
/ SDDAT2[3]/ GPD[5]
/ SDDAT2[2]/ GPD[6]
/ SDDAT2[1]/ GPE[8]
/ I2S_MCLK / SDCLK1
/ I2S_BCLK / SDCMD1
/ SDDAT1[3]
/ I2S_WS
/ I2S_DOUT / SDDAT1[2]
/ I2S_DIN / GPB[6]
/ LMVSYNC / GPA[11]
/ SPI1_CS1_ / GPA[10]
ADAC_HPOUT_R
ND[1]
ND[0]
GPA[7]
VDD18
VDD33
ADAC_VDD33
ADAC_VREF
ADAC_AVSS33
SHSYNC
SVSYNC
SFIELD
SPDATA[0]
SPDATA[1]
URRXD
URTXD
VDD33
NCS0_
VSS
NCS1_
NALE
NCLE
NRE_
NWR_
NBUSY0_
NBUSY1_
ND[7]
ND[6]
ND[5]
ND[4]
ND[3]
ND[2]
/ GPB[2]
/ GPB[3]
/ GPB[4]
/ GPB[5]
3.3
N32903U1DN
LQFP-128
GPE[0] /
GPC[15] /
GPC[14] /
GPC[13] /
GPC[12] /
GPC[11] /
GPC[10] /
GPC[9] /
GPC[8] /
N3290X DATASHEET
N32903U1DN (LQFP-128)
1
ISDA
MVSSQ
ADAC_HPOUT_L
_
ADAC_HPVDD33
90
80
UD_DP
UD_VDD33
UD_REXT
70
VSS
GPE[1] / SVSYNC / LVDATA[17]
30
MVDDQ
MVDDQ
MVSSQ
MVREF
ADAC_HPVSS33
MVSS
VDD18
UD_CDET
TRST_ / HUR_RTS / SPI0_CS1_/ GPD[4]
TDO / HUR_CTS / PWM3
/ GPD[3]
TMS
TDI
TCK
RST_
/ HUR_RXD / PWM2
/ HUR_TXD / PWM1
/ SPI1_CS1_/ PWM0
/ GPD[1]
/ GPD[0]
/ GPD[2]
GPA[0]
GPA[1] / SD_CD_
GPA[2] / LMVSYNC
GPA[3] / UHL_DP1
GPA[4] / UHL_DM1
GPA[5] / SPI0_CS1_
GPA[6] / SPI1_CS1_
VDD33
RTC_VDD
RTC_RPWR
RTC_RWAKE_
RTC_XOUT
ADC_AIN[3]
RTC_XIN
MVSS
Release Date: May. 2013
Rev. A5.1
SDDAT[3]
GPE[7] /
SDCLK
SDDAT[0]
VDD18
MVSSQ
MVDDQ
MVSSQ
MVDDQ
MVDD
MVDD
Nuvoton Technology Corp.
http://www.nuvoton.com/
10
SDCMD
XIN
XOUT
20
MVREF
UD_VDD18
UD_VSS
UD_DM
15
MIC_IN_P /
MIC_IN_M /
ISCK
GPD[12] / SPI0_CLK
GPD[13] / SPI0_CS0_
GPD[14] /
SPI0_DI
GPD[15] /
SPI0_DO
GPE[4] / SDDAT[2]
60
GPE[2] /
GPE[3] / SDDAT[1]
GPE[5] /
GPE[6] /
50
40
SPCLK
SCLKO
GPB[15] /
LVDATA[16]
LVDATA[15]
LVDATA[14]
LVDATA[13]
LVDATA[12]
LVDATA[11]
LVDATA[10]
LVDATA[9]
LVDATA[8]
LVDATA[7]
LVDATA[6]
LVDATA[5]
LVDATA[4]
LVDATA[3]
LVDATA[2]
LVDATA[1]
LVDATA[0]
LVDE
LVSYNC
LHSYNC
VDD18
LPCLK
VDD33
ADC_VSS33
ADC_TP_YM
ADC_TP_XM
ADC_TP_XP
ADC_TP_YP
ADC_VDD33
ADC_AIN[0]
ADC_AIN[1]
ADC_AIN[2]
GPB[1] / SDDAT1[0] / UHL_DM1 /
GPB[0] / SDDAT1[1] / UHL_DP1 /
GPB[14] / LMVSYNC /
GPB[13] /WDT_RST_ /
SPDATA[0] /
GPC[7] /
GPC[6] /
GPC[5] /
GPC[4] /
GPC[3] /
GPC[2] /
GPC[1] /
GPC[0] /
GPD[11] / WDT_RST_ /
GPD[10] /
GPD[9] /
SHSYNC /
SPDATA[7] /
SPDATA[6] /
SPDATA[5] /
SPDATA[4] /
SPDATA[3] /
SPDATA[2] /
SPDATA[1] /
100
110
120
128
/ SDDAT2[0]/ GPE[9]
/ GPE[10]
/ GPE[11]
/ SDCLK2
/ GPD[7]
/ SDCMD2
/ GPD[8]
/ SDDAT2[3]/ GPD[5]
/ SDDAT2[2]/ GPD[6]
/ SDDAT2[1]/ GPE[8]
/ I2S_MCLK / SDCLK1
/ I2S_BCLK / SDCMD1
/ SDDAT1[3]
/ I2S_WS
/ I2S_DOUT / SDDAT1[2]
/ I2S_DIN / GPB[6]
/ LMVSYNC / GPA[11]
/ SPI1_CS1_ / GPA[10]
ADAC_HPOUT_R
ND[1]
ND[0]
GPA[7]
VDD18
VDD33
ADAC_VDD33
ADAC_VREF
ADAC_AVSS33
SHSYNC
SVSYNC
SFIELD
SPDATA[0]
SPDATA[1]
URRXD
URTXD
VDD33
NCS0_
VSS
NCS1_
NALE
NCLE
NRE_
NWR_
NBUSY0_
NBUSY1_
ND[7]
ND[6]
ND[5]
ND[4]
ND[3]
ND[2]
/ GPB[2]
/ GPB[3]
/ GPB[4]
/ GPB[5]
3.4
N32905U1DN
LQFP-128
GPE[0] /
GPC[15] /
GPC[14] /
GPC[13] /
GPC[12] /
GPC[11] /
GPC[10] /
GPC[9] /
GPC[8] /
N3290X DATASHEET
N32905U1DN (LQFP-128)
ISDA
1
MVSSQ
ADAC_HPOUT_L
_
ADAC_HPVDD33
90
80
UD_DP
UD_VDD33
UD_REXT
70
30
VSS
GPE[1] / SVSYNC / LVDATA[17]
MVDDQ
MVDDQ
MVSSQ
MVREF
ADAC_HPVSS33
MVSS
VDD18
UD_CDET
TRST_ / HUR_RTS / SPI0_CS1_/ GPD[4]
TDO / HUR_CTS / PWM3
/ GPD[3]
TDI
/ HUR_RXD / PWM2
TMS / HUR_TXD / PWM1
TCK
/ SPI1_CS1_/ PWM0
RST_
/ GPD[1]
/ GPD[0]
/ GPD[2]
GPA[0]
GPA[1] / SD_CD_
GPA[2] / LMVSYNC
GPA[3] / UHL_DP1
GPA[4] / UHL_DM1
GPA[5] / SPI0_CS1_
GPA[6] / SPI1_CS1_
VDD33
RTC_VDD
RTC_RPWR
RTC_RWAKE_
RTC_XOUT
ADC_AIN[3]
RTC_XIN
MVSS
Release Date: May. 2013
Rev. A5.1
SDDAT[3]
GPE[7] /
SDCLK
SDDAT[0]
VDD18
MVSSQ
MVDDQ
MVSSQ
MVDDQ
MVDD
MVDD
Nuvoton Technology Corp.
http://www.nuvoton.com/
10
SDCMD
XIN
XOUT
20
MVREF
UD_VDD18
UD_VSS
UD_DM
16
MIC_IN_P /
MIC_IN_M /
ISCK
GPD[12] / SPI0_CLK
GPD[13] / SPI0_CS0_
GPD[14] /
SPI0_DI
GPD[15] /
SPI0_DO
GPE[4] / SDDAT[2]
60
GPE[2] /
GPE[3] / SDDAT[1]
GPE[5] /
GPE[6] /
50
40
SPCLK
SCLKO
GPB[15] /
LVDATA[16]
LVDATA[15]
LVDATA[14]
LVDATA[13]
LVDATA[12]
LVDATA[11]
LVDATA[10]
LVDATA[9]
LVDATA[8]
LVDATA[7]
LVDATA[6]
LVDATA[5]
LVDATA[4]
LVDATA[3]
LVDATA[2]
LVDATA[1]
LVDATA[0]
LVDE
LVSYNC
LHSYNC
VDD18
LPCLK
VDD33
ADC_VSS33
ADC_TP_YM
ADC_TP_XM
ADC_TP_XP
ADC_TP_YP
ADC_VDD33
ADC_AIN[0]
ADC_AIN[1]
ADC_AIN[2]
GPB[1] / SDDAT1[0] / UHL_DM1 /
GPB[0] / SDDAT1[1] / UHL_DP1 /
GPB[14] / LMVSYNC /
GPB[13] /WDT_RST_ /
SPDATA[0] /
GPC[7] /
GPC[6] /
GPC[5] /
GPC[4] /
GPC[3] /
GPC[2] /
GPC[1] /
GPC[0] /
GPD[11] / WDT_RST_ /
GPD[10] /
GPD[9] /
SHSYNC /
SPDATA[7] /
SPDATA[6] /
SPDATA[5] /
SPDATA[4] /
SPDATA[3] /
SPDATA[2] /
SPDATA[1] /
ND[1]
ND[0]
GPA[7]
VDD18
TVDAC_VDD33
TVDAC_VREF
TVDAC_REXT
TVDAC_COMP
TVDAC_TVOUT
TVDAC_VSS33
ADAC_VDD33
ADAC_VREF
ADAC_AVSS33
100
120
ADAC_HPOUT_R
/ SDDAT2[0]/ GPE[9]
/ GPE[10]
/ GPE[11]
/ SDCLK2
/ GPD[7]
/ SDCMD2
/ GPD[8]
/ SDDAT2[3]/ GPD[5]
/ SDDAT2[2]/ GPD[6]
/ SDDAT2[1]/ GPE[8]
110
/ LMVSYNC / GPA[11]
/ SPI1_CS1_ / GPA[10]
URRXD
URTXD
VDD33
NCS0_
VSS
NCS1_
NALE
NCLE
NRE_
NWR_
NBUSY0_
NBUSY1_
ND[7]
ND[6]
ND[5]
ND[4]
ND[3]
ND[2]
128
3.5
N32905U2DN
LQFP-128
GPE[0] /
GPC[15] /
GPC[14] /
GPC[13] /
GPC[12] /
GPC[11] /
GPC[10] /
GPC[9] /
GPC[8] /
N3290X DATASHEET
N32905U2DN (LQFP-128)
ISDA
1
MVSSQ
ADAC_HPOUT_L
_
ADAC_HPVDD33
90
80
UD_DP
UD_VDD33
UD_REXT
70
30
VSS
GPE[1] / SVSYNC / LVDATA[17]
MVDDQ
MVDDQ
MVSSQ
MVREF
ADAC_HPVSS33
MVSS
VDD18
UD_CDET
TRST_ / HUR_RTS / SPI0_CS1_/ GPD[4]
TDO / HUR_CTS / PWM3
/ GPD[3]
TDI
/ HUR_RXD / PWM2
TMS / HUR_TXD / PWM1
TCK
/ SPI1_CS1_/ PWM0
RST_
/ GPD[1]
/ GPD[0]
/ GPD[2]
GPA[0]
GPA[1] / SD_CD_
GPA[2] / LMVSYNC
GPA[3] / UHL_DP1
GPA[4] / UHL_DM1
GPA[5] / SPI0_CS1_
GPA[6] / SPI1_CS1_
VDD33
RTC_VDD
RTC_RPWR
RTC_RWAKE_
RTC_XOUT
ADC_AIN[3]
RTC_XIN
MVSS
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
SDCLK
GPE[2] /
SDDAT[0]
GPE[3] /
SDDAT[1]
XIN
10
XOUT
MVREF
PLL_VDD18
UD_DM
UD_DP
15
Nuvoton Technology Corp.
http://www.nuvoton.com/
50
ADAC_VREF
ADAC_AVSS33
ADAC_VDD33
/ GPA[10]
VDD33
/ GPA[11]
GPA[7]
VDD18
MVDD18
MVREF
VDD18
UD_CDET
40
HUR_RXD
HUR_TXD
/ PWM2 / GPD[2]
/ PWM1 / GPD[1]
RST_
GPA[1] / SD_CD
GPA[3] / UHL_DP1
35
GPA[4] / UHL_DM1
GPA[5] / SPI0_CS1_
ADC_AIN[2]
25
GPC[11] / SPDATA[3]
GPC[13] / SPDATA[5]
GPC[12] / SPDATA[4]
GPC[14] / SPDATA[6]
GPC[15] / SPDATA[7]
VSS
UD_REXT
20
UD_VDD33
ADAC_HPVSS33
17
MIC_IN_P / ADC_AIN[0]
MIC_IN_M / ADC_AIN[1]
GPE[7] /
5
ADAC_HPVDD33
45
30
SDCMD
ADC_VSS
SDDAT[3]
GPE[6] /
ADAC_HPOUT_L
ADC_VDD33
GPE[5] /
VDD33
SDDAT[2]
VDD18
GPE[4] /
ADAC_HPOUT_R
GPC[8] / SPDATA[0]
SPI0_DO
GPC[10] / SPDATA[2]
GPC[9] / SPDATA[1]
GPD[15] /
1
N32903R1DN
TQFP-64
SPI0_DI
(10 x 10 x 1.0mm)
(pitch 0.5mm)
GPD[13] / SPI0_CS0_
GPD[14] /
URTXD
URRXD
55
/ GPB[6]
I2S_DIN
/ GPB[4]
I2S_DOUT / GPB[5]
SHSYNC
60
UHL_DP1
/ I2S_BCLK / GPB[3]
SPCLK
/ GPD[12]
SPI0_CLK
/ I2S_WS
GPB[1]
UHL_DM1
/ I2S_MCLK / GPB[2]
SPCLKO
/
SFIELD
/
/
/
SVSYNC
N32903R1DN (TQFP-64)
GPB[0]
3.6
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
SPI0_DI
SDDAT[0]
GPE[3] /
SDDAT[1]
XIN
10
XOUT
VSS
PLL_VDD18
UD_DM
UD_DP
15
Nuvoton Technology Corp.
http://www.nuvoton.com/
50
ADAC_VREF
ADAC_AVSS33
ADAC_VDD33
/ GPA[10]
VDD33
/ GPA[11]
GPA[7]
VDD18
VDD18
UD_CDET
40
HUR_RXD
HUR_TXD
/ PWM2 / GPD[2]
/ PWM1 / GPD[1]
RST_
GPA[1] / SD_CD
GPA[3] / UHL_DP1
35
GPA[4] / UHL_DM1
GPA[5] / SPI0_CS1_
ADC_AIN[2]
25
GPC[11] / SPDATA[3]
GPC[14] / SPDATA[6]
GPC[13] / SPDATA[5]
GPC[12] / SPDATA[4]
GPC[15] / SPDATA[7]
VSS
UD_REXT
20
UD_VDD33
VSS
18
MIC_IN_P / ADC_AIN[0]
MIC_IN_M / ADC_AIN[1]
GPE[2] /
ADAC_HPVSS33
MVDD33
30
SDCLK
ADC_VSS
SDCMD
GPE[7] /
ADAC_HPVDD33
45
ADC_VDD33
GPE[6] /
5
VDD33
SDDAT[3]
VDD18
GPE[5] /
GPC[8] / SPDATA[0]
SDDAT[2]
GPC[10] / SPDATA[2]
GPC[9] / SPDATA[1]
SPI0_DO
GPE[4] /
ADAC_HPOUT_R
ADAC_HPOUT_L
N32901R1DN
LQFP-64
GPD[15] /
1
(10 x 10 x 1.4mm)
(pitch 0.5mm)
GPD[13] / SPI0_CS0_
GPD[14] /
URTXD
URRXD
55
/ GPB[6]
I2S_DIN
/ GPB[4]
I2S_DOUT / GPB[5]
SHSYNC
60
UHL_DP1
/ I2S_BCLK / GPB[3]
SPCLK
/ GPD[12]
SPI0_CLK
/ I2S_WS
GPB[1]
UHL_DM1
/ I2S_MCLK / GPB[2]
SPCLKO
/
SFIELD
/
/
/
SVSYNC
N32901R1DN (LQFP-64)
GPB[0]
3.7
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
4. PIN DESCRIPTION
4.1
Pin Description & Cross Reference
N32901U1DN
N32901U2DN
N32903U1DN
N32905U1DN
N32905U2DN
N32903R1DN
N32901R1DN
XIN
I
27MHz/12MHz Crystal Input
●
●
●
●
●
●
●
XOUT
O
27MHz/12MHz Crystal Output
●
●
●
●
●
●
●
RST_
IOSU
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
Pin Name
I/O
Type
Description
Clock & Reset
System Reset, Input, Low Active
Watch-Dog Reset, Output, Low Active
JTAG Interface
TCK
IOD
SPI1_CS1_
JTAG Interface Test Clock, Input
SPI Port 1 Device Select 1, Output, Low
Active
PWM0
PWM Channel 0
GPD[0]
TMS
GPIO Port D Bit 0
IOU
HUR_TXD
JTAG Interface Test Mode Select, Input
High-Speed UART TX Data, Output
PWM1
PWM Channel 1
GPD[1]
TDI
GPIO Port D Bit 1
IOU
HUR_RXD
JTAG Interface Test Data In, Input
High-Speed UART RX Data, Input
PWM2
PWM Channel 2
GPD[2]
TDO
GPIO Port D Bit 2
IOU
HUR_CTS
JTAG Interface Test Data Out, Output
High-Speed
Low Active
UART
PWM3
PWM Channel 3
GPD[3]
GPIO Port D Bit 3
TRST_
IOU
HUR_RTS
JTAG Interface
Active
Clear-To-Send,
Test
Reset,
Input,
Input,
Low
High-Speed UART Reset-To-Send, Output,
Low Active
SPI0_CS1_
SPI Port 0 Device Select 1, Output, Low
Active
GPD[4]
GPIO Port D Bit 4
Nuvoton Technology Corp.
http://www.nuvoton.com/
19
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
N32905U2DN
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
N32901R1DN
N32905U1DN
●
N32903R1DN
N32903U1DN
Description
Type
N32901U2DN
I/O
N32901U1DN
Pin Name
NAND Interface
NCS0_
IOU
NAND Interface Chip Select 0, Output, Low
Active
SDDAT2[1]
SD Port 2 Data Bit 1
GPE[8]
GPIO Port E Bit 8
NCS1_
IOU
NAND Interface Chip Select 1, Output, Low
Active
SDDAT2[0]
SD Port 2 Data Bit 0
GPE[9]
GPIO Port E Bit 9
NALE
IOU
GPE[10]
NCLE
IOU
NAND Interface Command-Latch-Enable,
Output, High Active
GPIO Port E Bit 11
IOU
NAND Interface Busy 0, Input, Low Active
SDDAT2[3]
SD Port 2 Data Bit 3
GPD[5]
GPIO Port D Bit 5
NBUSY1_
IOU
NAND Interface Busy 1, Input, Low Active
SDDAT2[2]
SD Port 2 Data Bit 2
GPD[6]
GPIO Port D Bit 6
NRE_
Address-Latch-Enable,
GPIO Port E Bit 10
GPE[11]
NBUSY0_
NAND
Interface
Output, High Active
IOU
NAND Interface Read Enable, Output, Low
Active
SDCLK2
SD Port 2 Clock, Output
GPD[7]
GPIO Port D Bit 7
NWR_
IOU
NAND Interface Write Enable, Output, Low
Active
SDCMD2
SD Port 2 Command/Response
GPD[8]
GPIO Port D Bit 8
ND[7:0]
IOU
CHIPCFG[7:0]
NAND Interface Data Bit [7:0]
Chip Power-On
Input
Configuration
Bit
[7:0],
Sensor/Video-In Interface
Nuvoton Technology Corp.
http://www.nuvoton.com/
20
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
GPB[0]
GPIO Port B Bit 0
USB Host Like Interface, DM
SDDAT1[0]
SD Port 1 Data Bit 0
GPB[1]
GPIO Port B Bit 1
I2S Interface Clock, Input
SDCMD1
SD Port 1 Command/Response
GPB[3]
GPIO Port B Bit 3
I2S Interface Word Select, Output
SDDAT1[3]
SD Port 1 Data Bit 3
GPB[4]
GPIO Port B Bit 4
IOU
I2S Interface Data Output
SDDAT1[2]
SD Port 1 Data Bit 2
GPB[5]
GPIO Port B Bit 5
IOU
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
Sensor Interface Data Bit 0, Input
I2S_DOUT
SPDATA[1]
●
Sensor Interface Even/ODD Field Indicator,
Input
I2S_WS
SPDATA[0]
●
Sensor Interface VSYNC, Input
I2S_BCLK
IOU
●
Sensor Interface Pixel Clock, Input
UHL_DM1
SFIELD
N32901R1DN
SD Port 1 Data Bit 1
IOU
N32903R1DN
SDDAT1[1]
SVSYNC
N32905U2DN
USB Host Like Interface, DP
IOU
●
Clock to Sensor Module, Output
UHL_DP1
SPCLK
N32905U1DN
IOU
Description
N32903U1DN
Type
N32901U2DN
SCLKO
I/O
N32901U1DN
Pin Name
Sensor Interface Data Bit 1, Input
I2S_DIN
I2S Interface Data Input
GPB[6]
GPIO Port B Bit 6
I2C Interface
ISCK
IOU
GPB[13]
ISDA
I2C Interface Clock, Output
GPIO Port B Bit 13
IOU
●
●
●
●
●
●
●
●
●
I2C Interface Data
LMVSYNC
MPU Mode VSYNC, Output
LFMARK
Frame Mark, Input
GPB[14]
GPIO Port B Bit 14
Nuvoton Technology Corp.
http://www.nuvoton.com/
●
21
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
N32901R1DN
N32905U2DN
●
N32903R1DN
N32905U1DN
Description
N32903U1DN
Type
N32901U2DN
I/O
N32901U1DN
Pin Name
●
●
LCD/Display Interface
LPCLK
IOU
GPB[15]
LHSYNC
GPIO Port B Bit 15
IOU
GPD[9]
LVSYNC
IOU
IOU
IOU
IOU
IOU
LCD Interface Data Bit 2
GPIO Port C Bit 2
IOU
GPC[3]
LVDATA[4]
LCD Interface Data Bit 1
GPIO Port C Bit 1
GPC[2]
LVDATA[3]
LCD Interface Data Bit 0
GPIO Port C Bit 0
GPC[1]
LVDATA[2]
LCD Interface Data Enable, Output, High
Active
GPIO Port D Bit 11
GPC[0]
LVDATA[1]
LCD Interface VSYNC, Output, High Active
GPIO Port D Bit 10
GPD[11]
LVDATA[0]
LCD Interface HSYNC, Output, High Active
GPIO Port D Bit 9
GPD[10]
LVDE
LCD Interface Pixel Clock, Output
LCD Interface Data Bit 3
GPIO Port C Bit 3
IOU
LCD Interface Data Bit 4
GPC[4]
GPIO Port C Bit 4
CHIPCFG[8]
Chip Power-On Configuration Bit [8], Input
LVDATA[5]
IOU
LCD Interface Data Bit 5
GPC[5]
GPIO Port C Bit 5
CHIPCFG[9]
Chip Power-On Configuration Bit [9], Input
LVDATA[6]
IOU
LCD Interface Data Bit 6
GPC[6]
GPIO Port C Bit 6
CHIPCFG[10]
Chip Power-On
Input
LVDATA[7]
IOU
GPC[7]
LVDATA[8]
Configuration
LCD Interface Data Bit 7
GPIO Port C Bit 7
IOU
Nuvoton Technology Corp.
http://www.nuvoton.com/
LCD Interface Data Bit 8
22
Bit
[10],
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
Sensor Interface Data Bit 0, Input
GPC[8]
GPIO Port C Bit 8
LVDATA[9]
IOU
KPI Scan In Bit 1
SPDATA[1]
Sensor Interface Data Bit 1, Input
GPC[9]
GPIO Port C Bit 9
IOU
KPI Scan In Bit 2
SPDATA[2]
Sensor Interface Data Bit 2, Input
GPC[10]
GPIO Port C Bit 10
IOU
KPI Scan In Bit 3
SPDATA[3]
Sensor Interface Data Bit 3, Input
GPC[11]
GPIO Port C Bit 11
IOU
KPI Scan In Bit 4
SPDATA[4]
Sensor Interface Data Bit 4, Input
GPC[12]
GPIO Port C Bit 12
IOU
KPI Scan In Bit 5
SPDATA[5]
Sensor Interface Data Bit 5, Input
GPC[13]
GPIO Port C Bit 13
IOU
KPI Scan In Bit 6
SPDATA[6]
Sensor Interface Data Bit 6, Input
GPC[14]
GPIO Port C Bit 14
IOU
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
LCD Interface Data Bit 15
KPI_SI[7]
KPI Scan In Bit 7
SPDATA[7]
Sensor Interface Data Bit 7, Input
Nuvoton Technology Corp.
http://www.nuvoton.com/
●
LCD Interface Data Bit 14
KPI_SI[6]
LVDATA[15]
●
LCD Interface Data Bit 13
KPI_SI[5]
LVDATA[14]
●
LCD Interface Data Bit 12
KPI_SI[4]
LVDATA[13]
●
LCD Interface Data Bit 11
KPI_SI[3]
LVDATA[12]
●
LCD Interface Data Bit 10
KPI_SI[2]
LVDATA[11]
●
LCD Interface Data Bit 9
KPI_SI[1]
LVDATA[10]
N32901R1DN
SPDATA[0]
N32903R1DN
KPI Scan In Bit 0
N32905U2DN
KPI_SI[0]
N32905U1DN
Description
N32903U1DN
Type
N32901U2DN
I/O
N32901U1DN
Pin Name
23
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
N32905U1DN
N32905U2DN
N32903R1DN
N32901R1DN
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
GPIO Port C Bit 15
IOU
LCD Interface Data Bit 16
SHSYNC
Sensor Interface HSYNC, Input
GPE[0]
GPIO Port E Bit 0
LVDATA[17]
N32903U1DN
GPC[15]
LVDATA[16]
Description
Type
N32901U2DN
I/O
N32901U1DN
Pin Name
IOU
LCD Interface Data Bit 17
SVSYNC
Sensor Interface VSYNC, Input
GPE[1]
GPIO Port E Bit 1
UART Interface
URTXD
IOU
UART TX Data, Output
SPI1_CS1_
SPI Port 1 Device Select 1, Output, Low
Active
GPA[10]
GPIO Port A Bit 10
URRXD
IOU
UART RX Data, Input
LMVSYNC
MPU Mode VSYNC, Output
LFMARK
Frame Mark, Input
GPA[11]
GPIO Port A Bit 11
SPI 0 Interface
SPI0_CLK
IOU
SPI Port 0 Clock
Output in Master Mode
Input in Slave Mode
GPD[12]
SPI0_CS0_
GPIO Port D Bit 12
IOU
SPI Port 0 Device Select 0, Low Active
Output in Master Mode
Input in Slave Mode
GPD[13]
SPI0_DI
GPIO Port D Bit 13
IOU
GPD[14]
SPI0_DO
SPI Port 0 Data Input
GPIO Port D Bit 14
IOU
GPD[15]
SPI Port 0 Data Output
GPIO Port D Bit 15
SD Card Interface
SDCLK
IOU
Nuvoton Technology Corp.
http://www.nuvoton.com/
SD Port 0 Clock, Output
24
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
N32901R1DN
IOU
SD Port 0 Data Bit 0
GPIO Port E Bit 2
IOU
SD Port 0 Data Bit 1
GPIO Port E Bit 3
IOU
GPE[4]
SDDAT[3]
SD Port 0 Command/Response
GPIO Port E Bit 6
GPE[3]
SDDAT[2]
N32903R1DN
IOU
GPE[2]
SDDAT[1]
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
GPIO Port E Bit 7
GPE[6]
SDDAT[0]
N32905U2DN
SDCMD
N32905U1DN
GPE[7]
Description
N32903U1DN
Type
N32901U2DN
I/O
N32901U1DN
Pin Name
SD Port 0 Data Bit 2
GPIO Port E Bit 4
IOU
GPE[5]
SD Port 0 Data Bit 3
GPIO Port E Bit 5
GPIO A
GPA[0]
IOU
GPIO Port A Bit 0
GPA[1]
IOU
GPIO Port A Bit 1
SD_CD_
GPA[2]
SD Card Detect, Input, Low Active
IOU
GPIO Port A Bit 2
LMVSYNC
MPU Mode VSYNC, Output
LFMARK
Frame Mark, Input
KPI_SO[0]
KPI Scan Out Bit 0
GPA[3]
IOU
GPIO Port A Bit 3
UHL_DP1
USB Host 1.0 Lite Port 1, D+
KPI_SO[1]
KPI Scan Out Bit 1
GPA[4]
IOU
GPIO Port A Bit 4
UHL_DM1
USB Host 1.0 Lite Port 1, D-
KPI_SO[2]
KPI Scan Out Bit 2
GPA[5]
IOU
GPIO Port A Bit 5
SPI0_CS1_
SPI Port 0 Device Select 1, Output, Low
Active
KPI_SO[3]
KPI Scan Out Bit 3
GPA[6]
IOU
SPI1_CS1_
Nuvoton Technology Corp.
http://www.nuvoton.com/
GPIO Port A Bit 6
SPI Port 1 Device Select 1, Output, Low
25
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
●
●
N32901R1DN
●
N32903R1DN
N32905U1DN
●
N32905U2DN
N32903U1DN
Description
Type
N32901U2DN
I/O
N32901U1DN
Pin Name
●
●
●
Active
KPI_SO[4]
GPA[7]
KPI Scan Out Bit 4
IOU
KPI_SO[5]
GPIO Port A Bit 7
KPI Scan Out Bit 5
RTC (Real Time Clock)
RTC_XIN
(32768Hz)
I
32768Hz Crystal Input
●
●
●
●
●
RTC_XOUT
(32768Hz)
O
32768Hz Crystal Output
●
●
●
●
●
RTC_RWAKE_
I
Wakeup Enable, Input, Low Active
●
●
●
●
●
Power Enable, Open-Drain
●
●
●
●
●
USB Device Connect Detect, Input, High
Active
●
●
●
●
●
●
●
RTC_RPWR
OD
USB 2.0 Device Interface
UD_CDET
I
UD_DP
IO
USB 2.0 Device D+
●
●
●
●
●
●
●
UD_DM
IO
USB 2.0 Device D-
●
●
●
●
●
●
●
UD_REXT
IO
External Resistor Connect
●
●
●
●
●
●
●
●
●
Recommend to connect 12.1KΩ resistor to
ground for USB 2.0 PHY
TV Out
TVDAC_TVOUT
O
Composite/Chroma Output
Connect an external 75Ω resistor to ground
of TVDAC as TV terminal impedence
TVDAC_REXT
IO
O
External Capacitor Connection
Connect 0.1uF capacitor to VDD33 of TVDAC
TVDAC_VREF
O
●
●
●
●
●
●
●
External Resistor Connection
Recommend to connect 160Ω resistor to
ground of TVDAC
TVDAC_COMP
●
Reference Voltage Output
Connect 0.1uF capacitor to ground of
TVDAC
ADC & Touch Panel
ADC_AIN[3]
I
ADC Analog Input Channel 3
●
●
●
●
●
ADC_AIN[2]
I
ADC Analog Input Channel 2
●
●
●
●
●
Nuvoton Technology Corp.
http://www.nuvoton.com/
26
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
N32901U1DN
N32901U2DN
N32903U1DN
N32905U1DN
N32905U2DN
N32903R1DN
N32901R1DN
●
●
●
●
●
●
●
●
●
●
●
●
●
●
Touch Panel YP
●
●
●
●
●
I
Touch Panel XP
●
●
●
●
●
ADC_TP_XM
I
Touch Panel XM
●
●
●
●
●
ADC_TP_YM
I
Touch Panel YM
●
●
●
●
●
ADAC_HPOUT_R
O
Audio Headphone Right Channel Output
●
●
●
●
●
●
●
ADAC_HPOUT_L
O
Audio Headphone Left Channel Output
●
●
●
●
●
●
●
ADAC_VREF
O
Audio DAC Reference Voltage Output
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
Pin Name
I/O
Description
Type
ADC_AIN[1]
I
ADC Analog Input Channel 1
MIC_IN_M
I
Microphone Negative Input
ADC_AIN[0]
I
ADC Analog Input Channel 0
MIC_IN_P
I
Microphone Positive Input
ADC_TP_YP
I
ADC_TP_XP
Audio DAC
Recommend to connect 1uF capacitor to
ground of Audio DAC
Power/Ground
MVREF
P
Reference Voltage for SDRAM I/F
Useless if SDR SDRAM used.
It should be MVDD/2 if DDR/DDR2/LPDDR
SDRAM used
MVREF_GND_SHI
ELDING
G
Ground Shielding for Reference Voltage
●
●
MVDD18
P
SDRAM I/F Power (1.8V)
●
●
MVDD33
P
SDRAM I/F Power (3.3V)
MVSS
G
SDRAM I/F Ground (0V)
●
●
●
●
●
●
●
MVDDQ
P
SDRAM I/F Power (1.8V)
●
●
●
●
●
●
●
MVSSQ
G
SDRAM I/F Ground (0V)
●
●
●
●
●
●
●
RTC_VDD
P
RTC Core, I/F & 32768Hz Crystal Power
●
●
●
●
●
UD_VDD33
P
USB 2.0 PHY Power (3.3V)
●
●
●
●
●
●
●
UD_VSS33
G
USB 2.0 PHY Ground (0V)
●
●
●
●
●
●
●
UD_VDD18
P
USB 2.0 PHY Power (1.8V)
●
●
●
●
●
●
●
UD_VSS18
G
USB 2.0 PHY Ground (0V)
●
●
●
●
●
●
●
TVDAC_VDD33
P
TV DAC Power (3.3V)
Nuvoton Technology Corp.
http://www.nuvoton.com/
●
●
27
●
●
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
N32903R1DN
N32901R1DN
N32905U2DN
N32905U1DN
N32903U1DN
N32901U2DN
N32901U1DN
TVDAC_VSS33
G
TV DAC Ground (0V)
ADC_VDD33
P
ADC Power (3.3V)
●
●
●
●
●
●
●
ADC_VSS33
G
ADC Ground (0V)
●
●
●
●
●
●
●
ADAC_HPVDD33
P
Audio DAC Headphone Driver Power (3.3V)
●
●
●
●
●
●
●
ADAC_HPVSS33
G
Audio DAC Headphone Driver Ground (0V)
●
●
●
●
●
●
●
ADAC_AVDD33
P
Audio DAC Power (3.3V)
●
●
●
●
●
●
●
ADAC_AVSS33
G
Audio DAC Ground (0V)
●
●
●
●
●
●
●
VDD33
P
I/O Power (3.3V)
●
●
●
●
●
●
●
VDD18
P
Core Logic Power (1.8V)
●
●
●
●
●
●
●
VSS
G
Ground (0V)
●
●
●
●
●
●
●
Pin Name
4.2
I/O
Description
Type
●
●
Pin Type Description
Type
I
Input
O
Output
OD
Open Drain output
IO
Input / Output
IOD
Input with pull-Down / Output
IOU
Input with pull-Up / Output
IOSU
Nuvoton Technology Corp.
http://www.nuvoton.com/
Description
Input with Schmitt trigger & pull-Up/ Output
P
Power
G
Ground
28
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
5. ELECTRICAL SPECIFICATION
5.1
Absolute Maximum Rating
Parameters
5.2
Values
Ambient Temperature
-20 °C ~ 85 °C
Storage Temperature
-40 °C ~ 125 °C
Voltage On Any Pin
-0.3V ~ 3.6V
Power Supply Voltage (Core Logic)
-0.5V ~ 2.5V
Power Supply Voltage (I/O Buffer)
-0.5V ~ 4.6V
Injection Current (Latch-Up Testing)
100mA
Crystal Frequency
2MHz ~ 27MHz
DC Characteristics (Normal I/O)
Symbol
Parameter
VDD33
MVDD33
VDD18
MVDD18
MVDDQ/
MVDD
RTC_VDD
Condition
Min.
Typ.
Max.
Unit
I/O Buffer Post-Driver Voltage
3.0
3.3
3.6
V
SDRAM Operation Voltage
3.0
3.3
3.6
V
1.62
1.8
1.98
V
1.7
1.8
1.9
V
1.7
1.8
1.9
V
1.2
-
1.8
V
-
4
-
uA
Core Logic and I/O
Buffer
Pre-Driver
Voltage
200MHz
DDR Operation
Voltage
100MHz
DDR Operation
Voltage
100MHz
RTC Power Supply
IRTC_VDD
RTC Supply Current
RTC_VDD<VDD18
VIH
Input High Voltage
2.0
-
5.5
V
VIL
Input Low Voltage
-0.3
-
0.8
V
VT
Threshold Point
1.45
1.58
1.74
V
VT+
Schmitt Trigger Low to High
Threshold Point
1.44
1.42
1.56
V
VT-
Schmitt Trigger High to Low
Threshold Point
0.89
1.06
0.99
V
-
160
-
mA
-10
-
10
uA
FCPU = 200MHz,
ICC
Core Power Supply Current
MCLK = 100MHz,
VDD18 = 1.8V
IL
Input Leakage Current
Nuvoton Technology Corp.
http://www.nuvoton.com/
29
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
Symbol
5.3
Parameter
Output
Condition
Leakage
Min.
Typ.
Max.
Unit
-10
-
10
uA
IOZ
Tri-State
Current
RPU
Pull-Up Resistor
39
65
116
kΩ
RPD
Pull-Down Resistor
40
56
108
kΩ
VOL
Output Low Voltage
-
-
0.4
V
VOH
Output High Voltage
2.4
-
-
V
IOL
Low Level Output
Current
4mA I/O
VOL = 0.4V
-
4.0
-
mA
IOH
High Level Output
Current
4mA I/O
VOH = 2.4V
-
5.9
-
mA
Audio DAC Characteristics
Test conditions: RL = 10K / 50pF, BW = 20Hz ~ 20KHz, Freq.= 1KHz, Sample Rate = 48KHz.
Parameter
Min
Typ
Max
Unit
Operating Voltage
3.0
3.3
3.6
V
Reference Voltage
-
DAC_VDD/2
-
V
Reference Capacitor
-
0.1
-
uF
Full Scale output voltage
-
1.32
-
Vrms
Maximum Output Power
-
-
52
mW
Maximum Output Power @ 32ohm load
-
-
46
mW
Maximum Output Power @ 16ohm load
-
-
41
mW
L-Channel SNR
-
86
-
dBV
R-Channel SNR
-
85
-
dBV
L-Channel THD+N
-
-64
-
dB
R-Channel THD+N
-
-64
-
dB
L-Channel THD+N @ 32ohm load
-
-63
-
dB
R-Channel THD+N @ 32ohm load
-
-63
-
dB
L-Channel THD+N @ 16ohm load
-
-62
-
dB
R-Channel THD+N @ 16ohm load
-
-62
-
dB
Nuvoton Technology Corp.
http://www.nuvoton.com/
30
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
5.4
ADC Characteristics
Parameter
SAR ADC Input Voltage Range
Resolution of ADC
Signal-to-Noise Plus Distortion of ADC
from Line In
Integral Non-Linearity of ADC
Differential Non-Linearity of ADC
No Missing Code
AD Conversion Rate=ADCCLK/16
5.5
Min.
Typ.
Max.
Unit
3.0
-
-
3.6
10
V
bit
-
TBD
-
dB
-
±2.0
±0.8
10
-
400
LSB
LSB
bit
KHz
AC Characteristics (Digital Interface)
5.5.1 Clock Input Characteristics
TXIN
XIN
TXINWH
TXINWL
FXIN = 1 / TXIN
XINDUTY = TXINWH / ( TXINWH + TXINWL )
Symbol
Parameter
Min.
Typ.
Max.
Unit
FXIN
Clock Input Frequency
-
12 / 27
-
MHz
XINDUTY
Clock Input Duty Cycle
45
50
55
%
Nuvoton Technology Corp.
http://www.nuvoton.com/
31
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
5.5.2 SDRAM Interface
TMCLK
MCLK
TMWL
TMWH
Command Out
MCS_
MRAS_
MCAS_
MWE_
MA
MBA
TMODLY
MDQS0
MDQS1
TMOH
TMDQSH
Data Output
TMDSU
TMDQSL
TMDH
MD[15:0]
Symbol
Parameter
Min.
Typ.
Max.
Unit
6
-
12
ns
TMCLK
MCLK Clock Cycle Time
TMWL
MCLK Clock Low Time
0.45
-
0.55
TMCLK
TSWH
MCLK Clock High Time
0.45
-
0.55
TMCLK
-
-
2
2
-
-
TMODLY
TMOH
Command and
Delay Time
Address
Output
Command
Hold Time
Address
Output
and
ns
ns
TMDQSH
MDQS0/MDQS1 High Time
0.4
-
0.6
TMCLK
TMDQSL
MDQS0/MDQS1 Low Time
0.4
-
0.6
TMCLK
TMDSU
MD to MDQS0/MDQS1 Setup Time
0.6
-
-
ns
TMDH
MD to MDQS0/MDQS1 Hold Time
0.6
-
-
ns
VREF
IO reference voltage
0.49
-
0.51
VDD
Nuvoton Technology Corp.
http://www.nuvoton.com/
32
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
5.5.3 Sensor/Video-In Interface
FSPCLK
TSWL
SPCLK
TSISU
SHSYNC
SVSYNC
SFIELD
SPDATA[7:0]
Symbol
TSWH
Parameter
TSIH
Min.
Typ.
Max.
Unit
FSPCLK
SPCLK Clock Frequency
-
-
50
MHz
TSWL
SPCLK Clock Low Time
10
-
-
ns
TSWH
SPCLK Clock High Time
10
-
-
ns
TSISU
SHSYNC, SVSYNC, SFIELD,
SPDATA[7:0] Setup Time
1.0
-
-
TSIH
SHSYNC, SVSYNC, SFIELD,
SPDATA[7:0] Hold Time
1.0
-
-
Nuvoton Technology Corp.
http://www.nuvoton.com/
33
ns
ns
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
5.5.4 I2S Interface
FABCLK
TAWL
I2S_BCLK
Input Mode
TAISU
TAWH
TAIH
I2S_DIN
Output Mode
I2S_WS
I2S_DOUT
TAODLY
Symbol
Parameter
TAOH
Min.
Typ.
Max.
Unit
FABCLK
I2S_BCLK Clock Frequency
-
-
16
MHz
TAWL
I2S_BCLK Clock Low Time
31.25
-
-
ns
TAWH
I2S_BCLK Clock High Time
31.25
-
-
ns
TAISU
I2S_DIN Setup Time
10
-
-
ns
TAIH
I2S_DIN Hold Time
10
-
-
ns
-
-
0.5
0.1
-
-
TAODLY
TAOH
Nuvoton Technology Corp.
http://www.nuvoton.com/
I2S_DOUT
Time
Output
Delay
I2S_DOUT Output Hold Time
34
ns
ns
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
5.5.5 LCD/Display Interface
SYNC Type LCD
FLPCLK
TLWL
LPCLK
LHSYNC
LVSYNC
LVDE
LVDATA[15:0]
Symbol
TLWH
TLODLY
TLOH
Parameter
Min.
Typ.
Max.
Unit
FLPCLK
LPCLK Clock Frequency
-
-
27
MHz
TLWL
LPCLK Clock Low Time
18.5
-
-
ns
TLWH
LPCLK Clock High Time
18.5
-
-
ns
TLODLY
LHSYNC, LVSYNC, LVDE and
LVDATA Output Delay Time
-
-
1.3
TLOH
LHSYNC, LVSYNC, LVDE and
LVDATA Output Hold Time
0.67
-
-
Nuvoton Technology Corp.
http://www.nuvoton.com/
35
ns
ns
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
MPU Type LCD
LPCLK (CS_)
TLAS
TLAH
LVDE (RS)
TLCSS
TLWR
TLCSH
80 Mode:
LHSYNC (WR_)
TLDODLY
TLDOH
LVDATA[15:0]
TLEN
68 Mode:
LVSYNC (EN)
Symbol
Parameter
Condition
Min.
Typ.
Max.
Unit
TLCSS
CS_ to WR_ Setup Time
2
-
-
PCLK
TLCSH
CS_ to WR_ Hold Time
1
-
-
PCLK
TLAS
RS to WR_ Setup Time
1
-
-
PCLK
TLAH
RS to WR_ Hold Time
1
-
-
PCLK
TLDODLY
LVDATA Output Delay Time
-
-
1
PCLK
TLDOH
LVDATA Output Hold Time
1
-
-
PCLK
TLWR
WR_ Pulse Width
80 Mode
1
-
-
PCLK
TLEN
EN Pulse Width
68 Mode
1
-
-
PCLK
Note: PCLK is the period of one APB bus clock.
Nuvoton Technology Corp.
http://www.nuvoton.com/
36
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
5.5.6 SPI Interface
FSPCLK
TSPWL
SPI0_CLK
TSPISU
Input Mode
TSPWH
TSPIH
SPI0_DI
Output Mode
SPI0_DO
TSPODLY
Symbol
TSPOH
Parameter
Min.
Typ.
Max.
Unit
FSPCLK
SPI0_CLK Clock Frequency
-
-
25
MHz
TSPWL
SPI0_CLK Clock Low Time
20
-
-
ns
TSPWH
SPI0_CLK Clock High Time
20
-
-
ns
TSPISU
SPI0_DI Setup Time
10
-
-
ns
TSPIH
SPI0_DI Hold Time
10
-
-
ns
TSPODLY
SPI0_DO Output Delay Time
-
-
1
ns
TSPOH
SPI0_DO Output Hold Time
0.2
-
-
ns
Nuvoton Technology Corp.
http://www.nuvoton.com/
37
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
5.5.7 NAND Interface
NCS0_
NCS1_
NALE
NCLE
TNWH
TNWL
NWR_
TNODLY
TNOH
ND[7:0]
(write)
NRE_
TNISU
TNIH
ND[7:0]
(Read)
Symbol
Parameter
Min.
Typ.
Max.
Unit
TNWL
Write Pulse Low Width
10
-
-
ns
TNWH
NWR_ High Hold Time
10
-
-
ns
TNODLY
ND[7:0] Output Delay Time
-
-
2.5
ns
TNOH
ND[7:0] Output Hold Time
10
-
-
ns
TNISU
ND[7:0] Data in Setup Time
3.2
-
-
ns
TNIH
ND[7:0] Data in hold time
1
-
-
ns
Nuvoton Technology Corp.
http://www.nuvoton.com/
38
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
5.5.8 SD Card Interface
FSDCLK
TSDWL
SDCLK
Input Mode
TSDWH
TSDISU
TSDIH
SDCMD,
SDDAT[3:0]
Output Mode
SDCMD,
SDDAT[3:0]
TSDODLY
Symbol
TSDOH
Parameter
Min.
Typ.
Max.
Unit
-
-
24
MHz
100
-
400
KHz
Clock SDCLK
FSDCLK
Clock
Frequency
Transfer Mode
in
Data
FSDCLK
Clock
Frequency
Identification Mode
TSDWL
Clock Low Time
10
-
-
ns
TSDWH
Clock High Time
10
-
-
ns
in
Input SDCMD, SDDAT[3:0] (referenced to SDCLK)
TSDISU
Input Setup Time
6
-
-
ns
TSDIH
Input Hold Time
2
-
-
ns
Output SDCMD, SDDAT[3:0] (referenced to SDCLK)
TSDODLY
Output Delay Time
-
-
14
ns
TSDOH
Output Hold Time
2.5
-
-
ns
Nuvoton Technology Corp.
http://www.nuvoton.com/
39
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
5.6
Power-on Sequence
5.7
Thermal characteristics of LQFP-128 Package
Thermal Performance of LQFP-128 under Forced Convection
Nuvoton Technology Corp.
http://www.nuvoton.com/
40
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
6. ORDERING INFORMATION
PART NO.
PACKAGE TYPE
DESCRIPTION
1
N32901U1DN
LQFP-128, MCP
Stacked 1Mbit x16 SDR MCP with LCD, CIS and I2S interface.
N32903R1DN
TQFP-64, MCP
Stacked 4Mbit x 16 DDR MCP with CIS, SDHC and I2S interface
N32903U1DN
LQFP-128, MCP
Stacked 4Mbit x16 DDR MCP with LCD,CIS and I2S interface.
N32905U1DN
LQFP-128, MCP
Stacked 16Mbit x16 DDR MCP with LCD, CIS and I2S interface.
N32905U2DN
LQFP-128, MCP
Stacked 16Mbit x16 DDR MCP with LCD,CIS interface & TV output.
6.1
Part Number Definition
6.2
Difference between N32901U1DN, N32903U1DN, N32905U1DN and N32905U2DN
MCPed SDRAM
Analog Composite TV Output
I2S Interface
Type/Capacity
1
N32901U1DN
SDR/2MBytes
-
V
N32901U2DN
SDR/2MBytes
V
-
N32903U1DN
DDR/8MBytes
-
V
N32905U1DN
DDR/32MBytes
-
V
N32905U2DN
DDR/32MBytes
V
-
MCP stands for Multi-Chip Package.
Nuvoton Technology Corp.
http://www.nuvoton.com/
41
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
7. PACKAGE OUTLINE
7.1
LQFP-128 (14X14X1.4mm body, 0.4mm pitch)
Nuvoton Technology Corp.
http://www.nuvoton.com/
42
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
7.2
TQFP-64 (10X10X1.0mm body, 0.5mm pitch)
Nuvoton Technology Corp.
http://www.nuvoton.com/
43
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
Nuvoton Technology Corp.
http://www.nuvoton.com/
44
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
UNIT: mm
Nuvoton Technology Corp.
http://www.nuvoton.com/
45
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
7.3
LQFP-64 (10X10X1.4mm body, 0.5mm pitch)
Symbol
A
A1
A2
b
c
D
E
e
HD
HE
L
L1
y
0
Nuvoton Technology Corp.
http://www.nuvoton.com/
Dimension in inch
Dimension in mm
Min Nom Max
Min Nom Max
0.063
0.002
1.60
0.006
0.05
0.15
0.053
0.055
0.057
1.35
1.40
1.45
0.007
0.008
0.011
0.17
0.20
0.27
0.008
0.09
0.004
10.00
0.393
10.00
0.020
0.50
0.472
12.00
12.00
0.472
0.018
0.024
0.030
0.45
0.75
0.10
0.004
3.5
0.60
1.00
0.039
0
0.20
0.393
7
46
0
3.5
7
Release Date: May. 2013
Rev. A5.1
N3290X DATASHEET
8. REVISION HISTORY
VERSION
DATE
PAGE
A0
Jul. 25, 2012
ALL
A1
Aug. 1, 2012
36
A2
Aug. 30, 2012
ALL
A2.1
Sept. 17, 2012
22
A3
Oct. 15, 2012
23,35
A3.1
Oct. 26, 2012
35
DESCRIPTION
 Initial release.
 Add stacked DRAM size into order Information
 Add N32901U1DN Information
 Correct the N32905U2DN Pin Diagram
 1Mx16 MVDD and MVDDQ are changed from 3.3V to
1.8V for consistence with N32905 and N32903
 Extend Operation Temperature Range
 Add Parts Feature Difference Table
 Add Part Number Definition
 Add CCIR Still Image and Video Recommanded
Resolutions.
 Add LCD Display for Still
Recommanded Resolutions.
A3.2
Nov. 8, 2012
6,7,8,9
Image
and
Video
 Modify One SPI H/W Engine to Support Two SPI Devices
by Two Chip Selection Signals when SPI0 is in Master
Mode. For LQFP128 package, only SPI0 is active.
 Add USB 1.1 Host One H/W Controller, Three Different
Pin Locations Information.
 Remove Adobe Flash Feature from Comparision Table.
A3.3
Nov. 10, 2012
35
A3.4
Jan. 21, 2013
4, 5, 10, 23
A4.0
Mar. 15, 2013
ALL
A5.0
May. 1, 2013
ALL
A5.1
May. 3,2013
28
 Update the AC characteristics.
 Add N32903R1DN
 Add N32901R1DN Information.
 Add N32901U2DN Information.
 Add SDRAM and DDR Operation Voltage Spec
Important Notice
Nuvoton Products are neither intended nor warranted for usage in systems or equipment, any malfunction or
failure of which may cause loss of human life, bodily injury or severe property damage. Such applications are
deemed, “Insecure Usage”.
Insecure usage includes, but is not limited to: equipment for surgical implementation, atomic energy control
instruments, airplane or spaceship instruments, the control or operation of dynamic, brake or safety systems
designed for vehicular use, traffic signal instruments, all types of safety devices, and other applications
intended to support or sustain life.
All Insecure Usage shall be made at customer’s risk, and in the event that third parties lay claims to Nuvoton
as a result of customer’s Insecure Usage, customer shall indemnify the damages and liabilities thus incurred
by Nuvoton.
Nuvoton Technology Corp.
http://www.nuvoton.com/
47
Release Date: May. 2013
Rev. A5.1