儿童型电脑产品开发说明书_-_山大工业设计网[1]
PalyMarphic BB13创意计算机设备概述说明书
8813 front panel. One is a key-operated on/off switch with a LED on /off in-
dicator. The switch may be desirable in turnkey applications. but it isn·t especially desirable when the 8813 1s used as a personal computer system In my own case, I managed to lose the key while transporting the system from work to home. and until I found the key was left looking at" a permanently
Disk files stored under EXEC may have names of up to 32 characters and two-letter extensions that identify the file type. For instance, GAME.BS is a BASIC program, LETTER .TX is a text file, MACHINE.GO is a machinelanguage program. INVENTORY.OT is a data file for BASIC, and so on . If you don't tell the computer which disk drive to look on for a file. drive #1 is assumed. Thus PROGRAM .BS is assumed to be on drive #1 . If you want to refer to something stored on drive #2 or #3. you put the number of the drive in
儿童智能产品功能定义方案
其它功能 智能音乐牙刷 TC1703
硬件参数
主板规格:FR4双面板 15*98mm
电池规格:14500电池,容量700mah,正极电解石墨,电池液成分锰酸锂;
充电底座规格:接触式充电线圈,底座漆包线直径0.16mm 绕线圈数200圈。充电器线圈直径0.35mm 绕线70圈。 内置磁柱; USB线规格:材质环保级TPE ,线芯材质纯铜,符合3C安规; G-sensor:六轴G-sensor; 防水等级:采用全结构防水,IPX7级防水等级; 马达规格:额定电压3.7VDC;转向:CW(顺)/CCW(逆) 空载电流150ma max,负载(带牙刷头)20G.CM, 负载电流200ma max, 连体按键:开关机键一个,音乐静音键一个;
其它功能
2、0.5mm刷毛高度差,清洁牙齿缝隙
3、3D旋转震动,刷牙更高效
4、通过CE,ROHS认证,独有LRD英国托马斯儿童产品专用认证。安全升级 5、两节AAA电池供电,可持续使用30天,让孩子远离充电产品带来的辐射
Specification(规格) Age(适龄):3-12 Model(型号):TC206 Reference standard(参考标准):GB30002-2013 Nominal diameter(公称丝径):0.10mm,0.15mm Speed(旋转):>4,000r/min(>4,000转/分) Battery Specification(电池规格):AAA*2 Weight(重量):About67g;battery or hourglass not included(约67g,不含电池和沙漏) Size(尺寸):210*30*27mm Temperature Range(使用温度范围):-20-60℃ Warranty(保质期):One Year(一年)
HeimaVista SchoolPad 说明书
(18)圖片管理→廣告資料清單.................................................................................. 35
(19)圖片管理→廣告多功處理.................................................................................. 36
(4)頁面頁首→頁首連結設定.................................................................................... 18
(5)內容管理→內容分類建立.................................................................................... 19
(21)問卷管理→問卷記錄細...................................................................................... 64
(22)投票管理→投票資料建立.................................................................................. 65
(19)問卷管理→預設提交訊息.................................................................................. 62
(20)問卷管理→問卷狀態總覽.................................................................................. 63
Panasonic Toughpad FZ-R1 商业Windows平板电脑说明书
Panasonic recommends Windows® 8. TOUGHPAD FZ-R1LEARN MORE1.800.662.3537 | /R1STORAGE & MEMORYn – 2-4GB SDRAM (DDR3L-1333MHz)4,5 – 64GB eMMC 6– Up to 32GB additional with optional microSDXC card 7DISPLAYn 7" WXGA 1280 x 800 with LED backlighting 8n 10-point capacitive multi touch daylight-readable screen – 500 nit– Anti-reflective screen treatment – Automatic screen rotation– Intel ® HD Graphics (Built-in Chip Set)4,9AUDIOn Integrated dual-microphone (available with select configurations) n Integrated monaural speakern On-screen and button volume / mute controls KEYBOARD& INPUTn Six tablet buttons (two user-definable)n Stylus pen with integrated holder in optional hand strapn On-screen QWERTY keyboardCAMERAS n 1080p webcam with dual microphone (available with select configurations) n 5MP rear camera with autofocus and LED light (2592 x 1944 (still)) (optional)10EXPANSION n microSDXCINTERFACEn Docking connector 24-pinn Headphones/speaker Mini-jack monaural n USB 3.0 (x 1)11 4-pinn SAM card slot (x 2) MicroWIRELESSn Integrated 4G LTE multi-carrier mobile broadband with satellite GPS (optional)12 n Intel ® Dual Band Wireless AC7260 Wi-Fi 802.11a/b/g/n/ac n Bluetooth ® v4.0 (Class 1) + EDRn Security– Authentication: LEAP, WPA, 802.1x, EAP-TLS, EAP-FAST, PEAP – Encryption: CKIP, TKIP, 128-bit and 64-bit WEP, Hardware AES SENSORn Digital compass n Gyro n Accelerationn Ambient light (available only when configured with webcam)POWER MANAGEMENTn Suspend / Resume function, Hibernation, StandbyWARRANTY n 3-year Limited Warranty, parts and labor DIMENSIONS & WEIGHT 17 n 10.12"(L) x 5.12"(W) x 1.08"(H) n 1.43 lbsINTEGRATED OPTIONSn 4G LTE multi-carrier mobile broadband with satellite GPS n Encrypted magnetic stripe readern 5MP rear camera with auto focus and LED light or 1D/2D barcode reader [EA30]10n Bridge batteryINTEGRATED PAYMENT TECHNOLOGYn SmartCard– Synchronous / asynchronous– EMVCo Level 1 I 2 certification, ISO7816n Magstripe reader (MSR)– Bi-directional, triple track, encrypted – ISO7810, 7811 and 7813 n Security / Key Management – 3DES encryption and DUKPTn Near Field Communications (NFC)– PayPass and PayWave (EMV mode and MS mode) – EMVCo L1 Certification, ISO14443 n PIN Pad– 3x4 capacitive keypad – PCI-PTS V4.0 certification– ADA compliant with optional overlay n Security Access Modules (SAMs) – Two card slotsACCESSORIESn AC adapter (3-prong)18 CF-AA6373AM n Standard battery pack FZ-VZSU94W n Long-life battery pack FZ-VZSU95W n Multi-battery chargerFZ-VCBM11Un Standard hand strap with stylus holder and tether FZ-VSTR11U n Rotating hand strap with stylus holder and tether FZ-VSTR12U n Capacitive replacement stylus FZ-VNPM11U n Countertop POS cradle FZ-VEBR11M n Multi-tablet cradleFZ-VEBR12Mn Rubber SmartCard gasket FZ-VADR11Un ADA-compliant Keypad overlayFZ-VADR12U©2015 Panasonic Corporation of North America. All rights reserved. FZ-R1 Spec Sheet _1/15Panasonic recommends Windows 8.Please consult your reseller or Panasonic representative before purchasing.Specifications given herein may be changed at any time without prior notice. 1 D o not expose the skin to this product when using the product in a hot or cold environment. When using in hot or cold environment, some peripherals may fail to work properly. Check the operation environment of the peripherals. Using this product continuously in a hot environment will shorten the product life. Avoid use in these types of environments. When using in low temperature environment, startup may become slow or battery operation time may become short. The computer consumes power when the hard disk is warming up during startup. Therefore, if you are using battery power and the remaining power is low, the computer may not start up. 2 No downgrade option to Windows 7. 3 O perations of this computer are not guaranteed except for the pre-installed OS and the OS which is installed by using the hard disk recovery and the recovery disc.4 1 MB = 1,048,576 bytes/1 GB = 1,073,741,824 bytes.5 Memory size of the factory default depends on the model.6 1 MB = 1,000,000 bytes / 1 GB = 1,000,000,000 bytes. Your operating system or some application software will report as fewer GB.7 O peration has been tested and confirmed using Panasonic microSD Memory Card with a capacity of up to 2 GB and Panasonic microSDHC Memory Card with a capacity of up to 32 GB. Operation on other microSD equipment is not guaranteed.8 A 16,777,216 color display is achieved by using the dithering function. 9 A segment of the main memory is allotted automatically depending on the computer’s operating status. The size of the Video Memory cannot be set by the user .10 Exclusively configurable by selecting one from Rear Camera or Barcode reader . 11 Does not guarantee operation of all USB-compatible peripherals.12 Only for model with Wireless WAN The specifications may differ depending on the models. 13 F or information on TPM, On the Start screen, click the [Manual Selector] tile, and select “Installation Manual for Trusted Platform Module (TPM)”. 14 M easured at LCD brightness: 60 cd/m2. Varies depending on the usage conditions, or when an external device is attached. 15 M easured at LCD brightness: 60 cd/m2. 6 payment transaction per hour . Varies depending on the usage conditions, or when an external device is attached.16 Varies depending on the usage conditions. 17 May differ depending on models and options. 18 T he AC adaptor is compatible with power sources up to 240 V AC adaptor . This computer is supplied with a 125 V AC compatible AC cord.。
产品说明及使用手册 - 新华书店北美网.
拼玩识字——产品说明及使用手册(完整版)目录“拼玩识字法”简介《拼玩识字》教材介绍教材编写说明教材使用方法配套教学VCD说明“拼字玩具”产品“拼玩识字法”简介“拼玩识字法”是针对4-5岁儿童开发的一种全新识字方法,它以汉字解剖学、文字学、儿童心理学、现代教育学等科学为理论基础,依据汉字的特点、构造及发展演变规律,将汉字拆分为61个笔画、64个偏旁部首和128个字块,运用这些部件可以拼出数千汉字。
孩子唱着儿歌、做着游戏,在轻松愉快的氛围中,将五彩缤纷的汉字牢记心中,真正实现了寓教于乐。
《拼玩识字》教材介绍最新增订的《拼玩识字》共三册,分别为初级本、中级本和高级本。
在原180首儿歌的基础上编入300首儿歌,遵循由简到繁、由易到难、由浅到深的认知规律,进行梯度安排,编排更为科学合理,内容更为丰富翔实。
需要特别说明的是,新书的出版,得到了国家督学、北京市小学语文教材主编汤世雄先生的热忱支持,他不仅参与了三本书的修订工作,而且提出了很多宝贵的意见和建议。
《拼玩识字》初级本、中级本和高级本,每册收入“拼字儿歌”100首,更便于幼儿园小、中、大班孩子和小学生根据实际情况来选择学习。
初级本100首儿歌中,前68首是笔画拼摆,后32首是以左右结构为主的字块拼摆。
其特点和拼摆方法书中有着详细的介绍。
同时,本册书后收录了《数字成语连读100句》,这些从一到十打头的成语,浅显易懂,琅琅上口,可供老师穿插着教孩子认读和理解,不仅能够活跃课堂气氛,而且扩大孩子的词汇量,为今后的阅读和写作积累一定语词。
中级本是在笔画拼摆和简单的字块拼摆基础上,专门以左右结构为主、按笔画多少为序而编的字块拼摆。
其中后10课含有其他结构的字,意为学习高级本做好准备。
本册后收录的则是《十二生肖成语连读》,从鼠到猪,12个活泼可爱的生肖引出的120个成语,同样令人百读不厌,手不释卷。
有了前两册实物拼摆的基础,孩子已经形成了大量汉字的脑映像,为进一步开发儿童智力和潜能,提高识字效率,高级本主要采用“意念拼摆”的方法,即利用脑中已有的笔画和字块的形象,通过儿歌进行重新组合,在脑中形成新的系列字。
儿童移动互联网电脑商务手册
Hipi-touch儿童移动互联网电脑商务手册目录一、什么是Hipi-touch儿童移动互联网电脑二、Hipi-touch儿童移动互联网电脑巨大的商业机遇三、Hipi-touch儿童移动互联网电脑的内容服务产品四、Hipi-touch代理商条件五、Hipi-touch儿童移动互联网电脑代理商收益六、Hipi品牌的宣传策划一、什么是hipi-touch儿童移动互联网电脑1、hipi-touch儿童移动互联网电脑Hipi-touch儿童移动互联网电脑是一款由苏州智童科技在中国研发、设计、制造且极有可能深受广大儿童及家长青睐的3G网络时代儿童互联网电脑,其独特的“儿童专用互联网”运营理念与共青团中央等机构所指导的“中国未成年人网脉工程”多年调查研究的结论不谋而合。
苏州智童科技以建立健康、安全的儿童专用的互联网平台和成为世界级儿童互联网运营商为战略目标。
运用了现在最先进的“云计算”技术,利用自主研发的HiPiCUBE儿童网络操作系统,整合教育信息化资源,与电信运营商、增值内容服务合作伙伴一起,搭建以HiPiTOUCH儿童专用互联网电脑载体为儿童提供由家长监管的互联网平台。
向儿童提供教育、娱乐和沟通等内容服务,通过学校、家长和学生三方互动沟通,为儿童提供更精彩、更健康、更绿色的互联网世界。
Hipi-touch儿童移动互联网电脑是中国市场上独一无二的产品,面前市面上还没有类似的竞争产品。
其独特的产品创意,将赢得极其广阔的市场。
2、苏州智童科技苏州智童科技有限公司成立于2008年8月,落户于充满学术氛围的苏州独墅湖高教区。
公司致力于儿童科技产品的创新、研发及推广。
目前已与运营商如中国电信,技术合作伙伴如Intel、Marvell、君正、瀚瑞微电子、东南大学以及技术服务伙伴如比亚迪、万利达、支付宝、永中科技等机构进行深度合作,搭建“儿童专用互联网”平台,将品牌运营与信息通讯技术相融合,利用高科技装备为儿童提供学习、沟通、娱乐等服务,是自主创新和民族品牌的新生力量代表。
NuMicro N9H30系列开发板用户手册说明书
NuMicro®FamilyArm® ARM926EJ-S BasedNuMaker-HMI-N9H30User ManualEvaluation Board for NuMicro® N9H30 SeriesNUMAKER-HMI-N9H30 USER MANUALThe information described in this document is the exclusive intellectual property ofNuvoton Technology Corporation and shall not be reproduced without permission from Nuvoton.Nuvoton is providing this document only for reference purposes of NuMicro microcontroller andmicroprocessor based system design. Nuvoton assumes no responsibility for errors or omissions.All data and specifications are subject to change without notice.For additional information or questions, please contact: Nuvoton Technology Corporation.Table of Contents1OVERVIEW (5)1.1Features (7)1.1.1NuMaker-N9H30 Main Board Features (7)1.1.2NuDesign-TFT-LCD7 Extension Board Features (7)1.2Supporting Resources (8)2NUMAKER-HMI-N9H30 HARDWARE CONFIGURATION (9)2.1NuMaker-N9H30 Board - Front View (9)2.2NuMaker-N9H30 Board - Rear View (14)2.3NuDesign-TFT-LCD7 - Front View (20)2.4NuDesign-TFT-LCD7 - Rear View (21)2.5NuMaker-N9H30 and NuDesign-TFT-LCD7 PCB Placement (22)3NUMAKER-N9H30 AND NUDESIGN-TFT-LCD7 SCHEMATICS (24)3.1NuMaker-N9H30 - GPIO List Circuit (24)3.2NuMaker-N9H30 - System Block Circuit (25)3.3NuMaker-N9H30 - Power Circuit (26)3.4NuMaker-N9H30 - N9H30F61IEC Circuit (27)3.5NuMaker-N9H30 - Setting, ICE, RS-232_0, Key Circuit (28)NUMAKER-HMI-N9H30 USER MANUAL3.6NuMaker-N9H30 - Memory Circuit (29)3.7NuMaker-N9H30 - I2S, I2C_0, RS-485_6 Circuit (30)3.8NuMaker-N9H30 - RS-232_2 Circuit (31)3.9NuMaker-N9H30 - LCD Circuit (32)3.10NuMaker-N9H30 - CMOS Sensor, I2C_1, CAN_0 Circuit (33)3.11NuMaker-N9H30 - RMII_0_PF Circuit (34)3.12NuMaker-N9H30 - RMII_1_PE Circuit (35)3.13NuMaker-N9H30 - USB Circuit (36)3.14NuDesign-TFT-LCD7 - TFT-LCD7 Circuit (37)4REVISION HISTORY (38)List of FiguresFigure 1-1 Front View of NuMaker-HMI-N9H30 Evaluation Board (5)Figure 1-2 Rear View of NuMaker-HMI-N9H30 Evaluation Board (6)Figure 2-1 Front View of NuMaker-N9H30 Board (9)Figure 2-2 Rear View of NuMaker-N9H30 Board (14)Figure 2-3 Front View of NuDesign-TFT-LCD7 Board (20)Figure 2-4 Rear View of NuDesign-TFT-LCD7 Board (21)Figure 2-5 Front View of NuMaker-N9H30 PCB Placement (22)Figure 2-6 Rear View of NuMaker-N9H30 PCB Placement (22)Figure 2-7 Front View of NuDesign-TFT-LCD7 PCB Placement (23)Figure 2-8 Rear View of NuDesign-TFT-LCD7 PCB Placement (23)Figure 3-1 GPIO List Circuit (24)Figure 3-2 System Block Circuit (25)Figure 3-3 Power Circuit (26)Figure 3-4 N9H30F61IEC Circuit (27)Figure 3-5 Setting, ICE, RS-232_0, Key Circuit (28)Figure 3-6 Memory Circuit (29)Figure 3-7 I2S, I2C_0, RS-486_6 Circuit (30)Figure 3-8 RS-232_2 Circuit (31)Figure 3-9 LCD Circuit (32)NUMAKER-HMI-N9H30 USER MANUAL Figure 3-10 CMOS Sensor, I2C_1, CAN_0 Circuit (33)Figure 3-11 RMII_0_PF Circuit (34)Figure 3-12 RMII_1_PE Circuit (35)Figure 3-13 USB Circuit (36)Figure 3-14 TFT-LCD7 Circuit (37)List of TablesTable 2-1 LCD Panel Combination Connector (CON8) Pin Function (11)Table 2-2 Three Sets of Indication LED Functions (12)Table 2-3 Six Sets of User SW, Key Matrix Functions (12)Table 2-4 CMOS Sensor Connector (CON10) Function (13)Table 2-5 JTAG ICE Interface (J2) Function (14)Table 2-6 Expand Port (CON7) Function (16)Table 2-7 UART0 (J3) Function (16)Table 2-8 UART2 (J6) Function (16)Table 2-9 RS-485_6 (SW6~8) Function (17)Table 2-10 Power on Setting (SW4) Function (17)Table 2-11 Power on Setting (S2) Function (17)Table 2-12 Power on Setting (S3) Function (17)Table 2-13 Power on Setting (S4) Function (17)Table 2-14 Power on Setting (S5) Function (17)Table 2-15 Power on Setting (S7/S6) Function (18)Table 2-16 Power on Setting (S9/S8) Function (18)Table 2-17 CMOS Sensor Connector (CON9) Function (19)Table 2-18 CAN_0 (SW9~10) Function (19)NUMAKER-HMI-N9H30 USER MANUAL1 OVERVIEWThe NuMaker-HMI-N9H30 is an evaluation board for GUI application development. The NuMaker-HMI-N9H30 consists of two parts: a NuMaker-N9H30 main board and a NuDesign-TFT-LCD7 extensionboard. The NuMaker-HMI-N9H30 is designed for project evaluation, prototype development andvalidation with HMI (Human Machine Interface) function.The NuMaker-HMI-N9H30 integrates touchscreen display, voice input/output, rich serial port serviceand I/O interface, providing multiple external storage methods.The NuDesign-TFT-LCD7 can be plugged into the main board via the DIN_32x2 extension connector.The NuDesign-TFT-LCD7 includes one 7” LCD which the resolution is 800x480 with RGB-24bits andembedded the 4-wires resistive type touch panel.Figure 1-1 Front View of NuMaker-HMI-N9H30 Evaluation BoardNUMAKER-HMI-N9H30 USER MANUAL Figure 1-2 Rear View of NuMaker-HMI-N9H30 Evaluation Board1.1 Features1.1.1 NuMaker-N9H30 Main Board Features●N9H30F61IEC chip: LQFP216 pin MCP package with DDR (64 MB)●SPI Flash using W25Q256JVEQ (32 MB) booting with quad mode or storage memory●NAND Flash using W29N01HVSINA (128 MB) booting or storage memory●One Micro-SD/TF card slot served either as a SD memory card for data storage or SDIO(Wi-Fi) device●Two sets of COM ports:–One DB9 RS-232 port with UART_0 used 75C3232E transceiver chip can be servedfor function debug and system development.–One DB9 RS-232 port with UART_2 used 75C3232E transceiver chip for userapplication●22 GPIO expansion ports, including seven sets of UART functions●JTAG interface provided for software development●Microphone input and Earphone/Speaker output with 24-bit stereo audio codec(NAU88C22) for I2S interfaces●Six sets of user-configurable push button keys●Three sets of LEDs for status indication●Provides SN65HVD230 transceiver chip for CAN bus communication●Provides MAX3485 transceiver chip for RS-485 device connection●One buzzer device for program applicationNUMAKER-HMI-N9H30 USER MANUAL●Two sets of RJ45 ports with Ethernet 10/100 Mbps MAC used IP101GR PHY chip●USB_0 that can be used as Device/HOST and USB_1 that can be used as HOSTsupports pen drives, keyboards, mouse and printers●Provides over-voltage and over current protection used APL3211A chip●Retain RTC battery socket for CR2032 type and ADC0 detect battery voltage●System power could be supplied by DC-5V adaptor or USB VBUS1.1.2 NuDesign-TFT-LCD7 Extension Board Features●7” resolution 800x480 4-wire resistive touch panel for 24-bits RGB888 interface●DIN_32x2 extension connector1.2 Supporting ResourcesFor sample codes and introduction about NuMaker-N9H30, please refer to N9H30 BSP:https:///products/gui-solution/gui-platform/numaker-hmi-n9h30/?group=Software&tab=2Visit NuForum for further discussion about the NuMaker-HMI-N9H30:/viewforum.php?f=31 NUMAKER-HMI-N9H30 USER MANUALNUMAKER-HMI-N9H30 USER MANUAL2 NUMAKER-HMI-N9H30 HARDWARE CONFIGURATION2.1 NuMaker-N9H30 Board - Front View Combination Connector (CON8)6 set User SWs (K1~6)3set Indication LEDs (LED1~3)Power Supply Switch (SW_POWER1)Audio Codec(U10)Microphone(M1)NAND Flash(U9)RS-232 Transceiver(U6, U12)RS-485 Transceiver(U11)CAN Transceiver (U13)Figure 2-1 Front View of NuMaker-N9H30 BoardFigure 2-1 shows the main components and connectors from the front side of NuMaker-N9H30 board. The following lists components and connectors from the front view:NuMaker-N9H30 board and NuDesign-TFT-LCD7 board combination connector (CON8). This panel connector supports 4-/5-wire resistive touch or capacitance touch panel for 24-bits RGB888 interface.Connector GPIO pin of N9H30 FunctionCON8.1 - Power 3.3VCON8.2 - Power 3.3VCON8.3 GPD7 LCD_CSCON8.4 GPH3 LCD_BLENCON8.5 GPG9 LCD_DENCON8.7 GPG7 LCD_HSYNCCON8.8 GPG6 LCD_CLKCON8.9 GPD15 LCD_D23(R7)CON8.10 GPD14 LCD_D22(R6)CON8.11 GPD13 LCD_D21(R5)CON8.12 GPD12 LCD_D20(R4)CON8.13 GPD11 LCD_D19(R3)CON8.14 GPD10 LCD_D18(R2)CON8.15 GPD9 LCD_D17(R1)CON8.16 GPD8 LCD_D16(R0)CON8.17 GPA15 LCD_D15(G7)CON8.18 GPA14 LCD_D14(G6)CON8.19 GPA13 LCD_D13(G5)CON8.20 GPA12 LCD_D12(G4)CON8.21 GPA11 LCD_D11(G3)CON8.22 GPA10 LCD_D10(G2)CON8.23 GPA9 LCD_D9(G1) NUMAKER-HMI-N9H30 USER MANUALCON8.24 GPA8 LCD_D8(G0)CON8.25 GPA7 LCD_D7(B7)CON8.26 GPA6 LCD_D6(B6)CON8.27 GPA5 LCD_D5(B5)CON8.28 GPA4 LCD_D4(B4)CON8.29 GPA3 LCD_D3(B3)CON8.30 GPA2 LCD_D2(B2)CON8.31 GPA1 LCD_D1(B1)CON8.32 GPA0 LCD_D0(B0)CON8.33 - -CON8.34 - -CON8.35 - -CON8.36 - -CON8.37 GPB2 LCD_PWMCON8.39 - VSSCON8.40 - VSSCON8.41 ADC7 XPCON8.42 ADC3 VsenCON8.43 ADC6 XMCON8.44 ADC4 YMCON8.45 - -CON8.46 ADC5 YPCON8.47 - VSSCON8.48 - VSSCON8.49 GPG0 I2C0_CCON8.50 GPG1 I2C0_DCON8.51 GPG5 TOUCH_INTCON8.52 - -CON8.53 - -CON8.54 - -CON8.55 - -NUMAKER-HMI-N9H30 USER MANUAL CON8.56 - -CON8.57 - -CON8.58 - -CON8.59 - VSSCON8.60 - VSSCON8.61 - -CON8.62 - -CON8.63 - Power 5VCON8.64 - Power 5VTable 2-1 LCD Panel Combination Connector (CON8) Pin Function●Power supply switch (SW_POWER1): System will be powered on if the SW_POWER1button is pressed●Three sets of indication LEDs:LED Color DescriptionsLED1 Red The system power will beterminated and LED1 lightingwhen the input voltage exceeds5.7V or the current exceeds 2A.LED2 Green Power normal state.LED3 Green Controlled by GPH2 pin Table 2-2 Three Sets of Indication LED Functions●Six sets of user SW, Key Matrix for user definitionKey GPIO pin of N9H30 FunctionK1 GPF10 Row0 GPB4 Col0K2 GPF10 Row0 GPB5 Col1K3 GPE15 Row1 GPB4 Col0K4 GPE15 Row1 GPB5 Col1K5 GPE14 Row2 GPB4 Col0K6GPE14 Row2GPB5 Col1 Table 2-3 Six Sets of User SW, Key Matrix Functions●NAND Flash (128 MB) with Winbond W29N01HVS1NA (U9)●Microphone (M1): Through Nuvoton NAU88C22 chip sound input●Audio CODEC chip (U10): Nuvoton NAU88C22 chip connected to N9H30 using I2Sinterface–SW6/SW7/SW8: 1-2 short for RS-485_6 function and connected to 2P terminal (CON5and J5)–SW6/SW7/SW8: 2-3 short for I2S function and connected to NAU88C22 (U10).●CMOS Sensor connector (CON10, SW9~10)–SW9~10: 1-2 short for CAN_0 function and connected to 2P terminal (CON11)–SW9~10: 2-3 short for CMOS sensor function and connected to CMOS sensorconnector (CON10)Connector GPIO pin of N9H30 FunctionCON10.1 - VSSCON10.2 - VSSNUMAKER-HMI-N9H30 USER MANUALCON10.3 - Power 3.3VCON10.4 - Power 3.3VCON10.5 - -CON10.6 - -CON10.7 GPI4 S_PCLKCON10.8 GPI3 S_CLKCON10.9 GPI8 S_D0CON10.10 GPI9 S_D1CON10.11 GPI10 S_D2CON10.12 GPI11 S_D3CON10.13 GPI12 S_D4CON10.14 GPI13 S_D5CON10.15 GPI14 S_D6CON10.16 GPI15 S_D7CON10.17 GPI6 S_VSYNCCON10.18 GPI5 S_HSYNCCON10.19 GPI0 S_PWDNNUMAKER-HMI-N9H30 USER MANUAL CON10.20 GPI7 S_nRSTCON10.21 GPG2 I2C1_CCON10.22 GPG3 I2C1_DCON10.23 - VSSCON10.24 - VSSTable 2-4 CMOS Sensor Connector (CON10) FunctionNUMAKER-HMI-N9H30 USER MANUAL2.2NuMaker-N9H30 Board - Rear View5V In (CON1)RS-232 DB9 (CON2,CON6)Expand Port (CON7)Speaker Output (J4)Earphone Output (CON4)Buzzer (BZ1)System ResetSW (SW5)SPI Flash (U7,U8)JTAG ICE (J2)Power ProtectionIC (U1)N9H30F61IEC (U5)Micro SD Slot (CON3)RJ45 (CON12, CON13)USB1 HOST (CON15)USB0 Device/Host (CON14)CAN_0 Terminal (CON11)CMOS Sensor Connector (CON9)Power On Setting(SW4, S2~S9)RS-485_6 Terminal (CON5)RTC Battery(BT1)RMII PHY (U14,U16)Figure 2-2 Rear View of NuMaker-N9H30 BoardFigure 2-2 shows the main components and connectors from the rear side of NuMaker-N9H30 board. The following lists components and connectors from the rear view:● +5V In (CON1): Power adaptor 5V input ●JTAG ICE interface (J2) ConnectorGPIO pin of N9H30Function J2.1 - Power 3.3V J2.2 GPJ4 nTRST J2.3 GPJ2 TDI J2.4 GPJ1 TMS J2.5 GPJ0 TCK J2.6 - VSS J2.7 GPJ3 TD0 J2.8-RESETTable 2-5 JTAG ICE Interface (J2) Function●SPI Flash (32 MB) with Winbond W25Q256JVEQ (U7); only one (U7 or U8) SPI Flashcan be used●System Reset (SW5): System will be reset if the SW5 button is pressed●Buzzer (BZ1): Control by GPB3 pin of N9H30●Speaker output (J4): Through the NAU88C22 chip sound output●Earphone output (CON4): Through the NAU88C22 chip sound output●Expand port for user use (CON7):Connector GPIO pin of N9H30 FunctionCON7.1 - Power 3.3VCON7.2 - Power 3.3VCON7.3 GPE12 UART3_TXDCON7.4 GPH4 UART1_TXDCON7.5 GPE13 UART3_RXDCON7.6 GPH5 UART1_RXDCON7.7 GPB0 UART5_TXDCON7.8 GPH6 UART1_RTSCON7.9 GPB1 UART5_RXDCON7.10 GPH7 UART1_CTSCON7.11 GPI1 UART7_TXDNUMAKER-HMI-N9H30 USER MANUAL CON7.12 GPH8 UART4_TXDCON7.13 GPI2 UART7_RXDCON7.14 GPH9 UART4_RXDCON7.15 - -CON7.16 GPH10 UART4_RTSCON7.17 - -CON7.18 GPH11 UART4_CTSCON7.19 - VSSCON7.20 - VSSCON7.21 GPB12 UART10_TXDCON7.22 GPH12 UART8_TXDCON7.23 GPB13 UART10_RXDCON7.24 GPH13 UART8_RXDCON7.25 GPB14 UART10_RTSCON7.26 GPH14 UART8_RTSCON7.27 GPB15 UART10_CTSCON7.28 GPH15 UART8_CTSCON7.29 - Power 5VCON7.30 - Power 5VTable 2-6 Expand Port (CON7) Function●UART0 selection (CON2, J3):–RS-232_0 function and connected to DB9 female (CON2) for debug message output.–GPE0/GPE1 connected to 2P terminal (J3).Connector GPIO pin of N9H30 Function J3.1 GPE1 UART0_RXDJ3.2 GPE0 UART0_TXDTable 2-7 UART0 (J3) Function●UART2 selection (CON6, J6):–RS-232_2 function and connected to DB9 female (CON6) for debug message output –GPF11~14 connected to 4P terminal (J6)Connector GPIO pin of N9H30 Function J6.1 GPF11 UART2_TXDJ6.2 GPF12 UART2_RXDJ6.3 GPF13 UART2_RTSJ6.4 GPF14 UART2_CTSTable 2-8 UART2 (J6) Function●RS-485_6 selection (CON5, J5, SW6~8):–SW6~8: 1-2 short for RS-485_6 function and connected to 2P terminal (CON5 and J5) –SW6~8: 2-3 short for I2S function and connected to NAU88C22 (U10)Connector GPIO pin of N9H30 FunctionSW6:1-2 shortGPG11 RS-485_6_DISW6:2-3 short I2S_DOSW7:1-2 shortGPG12 RS-485_6_ROSW7:2-3 short I2S_DISW8:1-2 shortGPG13 RS-485_6_ENBSW8:2-3 short I2S_BCLKNUMAKER-HMI-N9H30 USER MANUALTable 2-9 RS-485_6 (SW6~8) FunctionPower on setting (SW4, S2~9).SW State FunctionSW4.2/SW4.1 ON/ON Boot from USB SW4.2/SW4.1 ON/OFF Boot from eMMC SW4.2/SW4.1 OFF/ON Boot from NAND Flash SW4.2/SW4.1 OFF/OFF Boot from SPI Flash Table 2-10 Power on Setting (SW4) FunctionSW State FunctionS2 Short System clock from 12MHzcrystalS2 Open System clock from UPLL output Table 2-11 Power on Setting (S2) FunctionSW State FunctionS3 Short Watchdog Timer OFFS3 Open Watchdog Timer ON Table 2-12 Power on Setting (S3) FunctionSW State FunctionS4 Short GPJ[4:0] used as GPIO pinS4Open GPJ[4:0] used as JTAG ICEinterfaceTable 2-13 Power on Setting (S4) FunctionSW State FunctionS5 Short UART0 debug message ONS5 Open UART0 debug message OFFTable 2-14 Power on Setting (S5) FunctionSW State FunctionS7/S6 Short/Short NAND Flash page size 2KBS7/S6 Short/Open NAND Flash page size 4KBS7/S6 Open/Short NAND Flash page size 8KBNUMAKER-HMI-N9H30 USER MANUALS7/S6 Open/Open IgnoreTable 2-15 Power on Setting (S7/S6) FunctionSW State FunctionS9/S8 Short/Short NAND Flash ECC type BCH T12S9/S8 Short/Open NAND Flash ECC type BCH T15S9/S8 Open/Short NAND Flash ECC type BCH T24S9/S8 Open/Open IgnoreTable 2-16 Power on Setting (S9/S8) FunctionCMOS Sensor connector (CON9, SW9~10)–SW9~10: 1-2 short for CAN_0 function and connected to 2P terminal (CON11).–SW9~10: 2-3 short for CMOS sensor function and connected to CMOS sensorconnector (CON9).Connector GPIO pin of N9H30 FunctionCON9.1 - VSSCON9.2 - VSSCON9.3 - Power 3.3VCON9.4 - Power 3.3V NUMAKER-HMI-N9H30 USER MANUALCON9.5 - -CON9.6 - -CON9.7 GPI4 S_PCLKCON9.8 GPI3 S_CLKCON9.9 GPI8 S_D0CON9.10 GPI9 S_D1CON9.11 GPI10 S_D2CON9.12 GPI11 S_D3CON9.13 GPI12 S_D4CON9.14 GPI13 S_D5CON9.15 GPI14 S_D6CON9.16 GPI15 S_D7CON9.17 GPI6 S_VSYNCCON9.18 GPI5 S_HSYNCCON9.19 GPI0 S_PWDNCON9.20 GPI7 S_nRSTCON9.21 GPG2 I2C1_CCON9.22 GPG3 I2C1_DCON9.23 - VSSCON9.24 - VSSTable 2-17 CMOS Sensor Connector (CON9) Function●CAN_0 Selection (CON11, SW9~10):–SW9~10: 1-2 short for CAN_0 function and connected to 2P terminal (CON11) –SW9~10: 2-3 short for CMOS sensor function and connected to CMOS sensor connector (CON9, CON10)SW GPIO pin of N9H30 FunctionSW9:1-2 shortGPI3 CAN_0_RXDSW9:2-3 short S_CLKSW10:1-2 shortGPI4 CAN_0_TXDSW10:2-3 short S_PCLKTable 2-18 CAN_0 (SW9~10) Function●USB0 Device/HOST Micro-AB connector (CON14), where CON14 pin4 ID=1 is Device,ID=0 is HOST●USB1 for USB HOST with Type-A connector (CON15)●RJ45_0 connector with LED indicator (CON12), RMII PHY with IP101GR (U14)●RJ45_1 connector with LED indicator (CON13), RMII PHY with IP101GR (U16)●Micro-SD/TF card slot (CON3)●SOC CPU: Nuvoton N9H30F61IEC (U5)●Battery power for RTC 3.3V powered (BT1, J1), can detect voltage by ADC0●RTC power has 3 sources:–Share with 3.3V I/O power–Battery socket for CR2032 (BT1)–External connector (J1)●Board version 2.1NUMAKER-HMI-N9H30 USER MANUAL2.3 NuDesign-TFT-LCD7 -Front ViewFigure 2-3 Front View of NuDesign-TFT-LCD7 BoardFigure 2-3 shows the main components and connectors from the Front side of NuDesign-TFT-LCD7board.7” resolution 800x480 4-W resistive touch panel for 24-bits RGB888 interface2.4 NuDesign-TFT-LCD7 -Rear ViewFigure 2-4 Rear View of NuDesign-TFT-LCD7 BoardFigure 2-4 shows the main components and connectors from the rear side of NuDesign-TFT-LCD7board.NuMaker-N9H30 and NuDesign-TFT-LCD7 combination connector (CON1).NUMAKER-HMI-N9H30 USER MANUAL 2.5 NuMaker-N9H30 and NuDesign-TFT-LCD7 PCB PlacementFigure 2-5 Front View of NuMaker-N9H30 PCB PlacementFigure 2-6 Rear View of NuMaker-N9H30 PCB PlacementNUMAKER-HMI-N9H30 USER MANUALFigure 2-7 Front View of NuDesign-TFT-LCD7 PCB PlacementFigure 2-8 Rear View of NuDesign-TFT-LCD7 PCB Placement3 NUMAKER-N9H30 AND NUDESIGN-TFT-LCD7 SCHEMATICS3.1 NuMaker-N9H30 - GPIO List CircuitFigure 3-1 shows the N9H30F61IEC GPIO list circuit.Figure 3-1 GPIO List Circuit NUMAKER-HMI-N9H30 USER MANUAL3.2 NuMaker-N9H30 - System Block CircuitFigure 3-2 shows the System Block Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-2 System Block Circuit3.3 NuMaker-N9H30 - Power CircuitFigure 3-3 shows the Power Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-3 Power Circuit3.4 NuMaker-N9H30 - N9H30F61IEC CircuitFigure 3-4 shows the N9H30F61IEC Circuit.Figure 3-4 N9H30F61IEC CircuitNUMAKER-HMI-N9H30 USER MANUAL3.5 NuMaker-N9H30 - Setting, ICE, RS-232_0, Key CircuitFigure 3-5 shows the Setting, ICE, RS-232_0, Key Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-5 Setting, ICE, RS-232_0, Key Circuit3.6 NuMaker-N9H30 - Memory CircuitFigure 3-6 shows the Memory Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-6 Memory Circuit3.7 NuMaker-N9H30 - I2S, I2C_0, RS-485_6 CircuitFigure 3-7 shows the I2S, I2C_0, RS-486_6 Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-7 I2S, I2C_0, RS-486_6 Circuit3.8 NuMaker-N9H30 - RS-232_2 CircuitFigure 3-8 shows the RS-232_2 Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-8 RS-232_2 Circuit3.9 NuMaker-N9H30 - LCD CircuitFigure 3-9 shows the LCD Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-9 LCD Circuit3.10 NuMaker-N9H30 - CMOS Sensor, I2C_1, CAN_0 CircuitFigure 3-10 shows the CMOS Sensor,I2C_1, CAN_0 Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-10 CMOS Sensor, I2C_1, CAN_0 Circuit3.11 NuMaker-N9H30 - RMII_0_PF CircuitFigure 3-11 shows the RMII_0_RF Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-11 RMII_0_PF Circuit3.12 NuMaker-N9H30 - RMII_1_PE CircuitFigure 3-12 shows the RMII_1_PE Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-12 RMII_1_PE Circuit3.13 NuMaker-N9H30 - USB CircuitFigure 3-13 shows the USB Circuit.NUMAKER-HMI-N9H30 USER MANUALFigure 3-13 USB Circuit3.14 NuDesign-TFT-LCD7 - TFT-LCD7 CircuitFigure 3-14 shows the TFT-LCD7 Circuit.Figure 3-14 TFT-LCD7 CircuitNUMAKER-HMI-N9H30 USER MANUAL4 REVISION HISTORYDate Revision Description2022.03.24 1.00 Initial version NUMAKER-HMI-N9H30 USER MANUALNUMAKER-HMI-N9H30 USER MANUALImportant NoticeNuvoton Products are neither intended nor warranted for usage in systems or equipment, anymalfunction or failure of which may cause loss of human life, bodily injury or severe propertydamage. Such applications are deemed, “Insecure Usage”.Insecure usage includes, but is not limited to: equipment for surgical implementation, atomicenergy control instruments, airplane or spaceship instruments, the control or operation ofdynamic, brake or safety systems designed for vehicular use, traffic signal instruments, all typesof 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 claimsto Nuvoton as a result of customer’s Insecure Usage, custome r shall indemnify the damagesand liabilities thus incurred by Nuvoton.。
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我们选择的STN(Super Twisted Nematic)液晶显示器。该液晶显示器超扭曲向列,最 常见的材质。和前面几种LCD相比,STN型液晶属于被动矩阵式LCD器件,它的好处 是功耗小,并且具有省电的最大优势。和TFT不同,STN属于无源Passive型LCD一般 最高能显示65536种色彩。撇开灰阶STN不提,现在STN主要有CSTN和DSTN之分。 CSTN即ColorSTN,一般采用传送式(transmissive)照明方式,传送式屏幕要使用外加光 源照明,称为背光(backlight),照明光源要安装在LCD的背后。传送式LCD在正常光线 及暗光线下,显示效果都很好,但在户外,尤其在日光下,很难辨清显示内容而背光 需要电源产生照明光线,要消耗电功率。 DSTN(double-layersuper-twistednematic即双层STN,过去主要应用在一些笔记本电 脑上。也是一种无源显示技术,使用两个显示层,这种显示技术解决了传统STN显示 器中的漂移问题;而且由于DSTN还采用了双扫描技术,因而显示效果较STN有大幅度 提高。由于DSTN分上下两屏同时扫描,所以在使用中有可能在显示屏中央出现一条 乐,进入游戏选 择界面。
选择游戏形式1:孩子可以选择自己喜欢 的材料,例如沙子,预制的模块等,充分 发挥孩子的想象力,调动孩子的积极性, 堆积或者排放形成孩子喜欢的图形,作品 完成后可以保存,留念。
小小艺术家色彩游戏界面选择游戏形式2: 屏幕显示京剧脸谱等图案,孩子选择触摸 屏上设定的画笔工具,作涂色练习,选择 画笔的颜色,再选择要填图的区域,软件 自动对该区域上色,形成均一的色彩效果。 颜色不设透明度,可以无限次覆盖,儿童 可以反复尝试和修改。作品完成后选择保 留选项可以自动保存。
本阶段家长的进入家长界面,主要是对孩子的学习内容和时间安排进行一定的 干预,如:设置完成复习的内容再玩游戏等。帮助孩子形成良好的学习习惯, 走好上小学的最关键的几步。这一阶段的界面形象趋于成熟,于儿童11岁儿童电脑系统设计桌面 界面类似于成人界面,不再设置专门的成人界面,与windows xp的界面 更为相似。该系统的主要特色为: 1.大型游戏的防沉迷设置。 2.不良网站的自动屏蔽。 3.休息时间提醒功能。 4.对基于windows系统开发的软件的完全兼容,对信息内容的完全可扩展 性。教会儿童文件夹的建立和内容分类的规划。例如:可将桌面划分为, “我收集的宝贝”、“软件安装”、“功课答疑与复习”等。 5.交流互动软件的复杂化和集成化,自动与msn或QQ形式绑定。完成儿童 交流方式到成人交流方式的过度。教会孩子使用网络资源。 6.该阶段的绘图软件有更多的创新,可以根据儿童手指按压的强度决定 填涂的面积,可以用棉布也可以用其他较为圆滑的笔尖作为绘画的工具交流的选项充分的简单化,通过 “一键式”的实现方式和极其形象的图 标(图右图所示),随时调用交流的模 块,实现与父母和其他的小朋友的互动。 自动连接和自己年龄相仿的小朋友,或 者家长的一端,实现“一起聊天”“一 起玩”。 家长通过特定的组合键进入家长界面, 主要完成帮助儿童下载和扩充游戏内容 的工作,基于儿童的偏好启发儿童进行 进一步的学习和探索。
(3.)在知识的传授上本着循序渐进的原则.5岁儿童电脑系统设计 孩子在3-5.5岁时使用该儿童电脑的最初时期,这一时期的 儿童获取知识的能力有限,尚未形成作较为复杂的动作的 能力,故采用更多的权限上的约束,便于儿童操作。鉴于 这个时期的儿童的认知范围较为狭窄,可获取知识的渠道 有限,故这一部分的设计构思作的最为详尽,意在教会儿 童最基本知识,建立最基本的知识构架。本阶段内容可选 择性有限,多为单线的选择和操作模式。设置帮助小精灵 和语音问答的功能,对于孩子对界面1:以一端孩子成长的动画为背景。配合语音自带有 “宝宝,我们又见面了”、“宝宝,我真的好爱你啊”、“小乖 乖,一天一天长大了”等字幕。 语音可以由父母自定义,作为爸爸妈妈的留言簿啦讲故事为语音产品,旨在培养孩子的听说的 能力。进入选项后调用随机函数选择故事,故事数量 每批200个左右。根据不同的年龄段划分,将历史、文 学、社会、哲学等的内容编成故事,其内容与宝宝去 探险中的游戏呼应,宝宝在听故事之余可以在宝宝去 探险的游戏中体验。故事结束后会有提示将故事与小 朋友或者爸爸妈妈来分享。可以通过即时语 屏 我 们 采 用 的 屏 幕 是 液 晶 的 , 液 晶 的 分 类 有 以 下 : 液 晶 尺 寸 种 类 : 常 见 的 液 晶 显 示 器 按 物 理 结 构 分 为 四 种 : ( 1 ) 扭 曲 向 列 型 ( TN-Twisted Nematic); (2) 超 扭 曲 向 列 型 ( STN-Super TN); (3)双层超扭曲向列型(DSTN-Dual Scan Tortuosity Nomograph); (4) 膜晶体管型(TFT-Thin Film Transistor)。
依照产品描述我们认为设计方向有两个: (1)轻薄便携(2)整机一体化设计。我们的产品开发基于以上思路展开设计。 16 17
1819果然团队产品创新开发评价
基于以上草图和效果图,经过两轮的修 正和讨论,我团队筛选和拟定6各方案进入细 致的评价阶段。2021
Hale Waihona Puke 2、评价的过程和结论 我团队进行产品创新开发评价的过程和结论如下图所示:23一、尺寸与结构
24二、材料与工艺 1、整体结构
我们的产品是面向儿童的产品,因此在外表材质方面必须采用光滑无滑伤的材质, 其中最好的当然是塑料材料了。塑料的种类很多,经过各种对比和选择,我们最 终采用了IXEF树脂,
他拥有非凡强度和刚度的IXEF 复合物,能够制成非常薄但却非常坚固的结构部件。 该材料的拉伸强度和线性热膨胀系数与许多铸造金属及合金相似。而且结合了低 蠕变性和低吸水性,成为替代金属的最佳材料。 IXEF 复合物具有非常好的流动特性——即使是玻璃纤维含量高达60% 时也一样。 这种高流动性使其能够容易充填非常薄的区域,从而能准确的模塑复杂部件。又 结合了材料的强度和硬度,使其达到最低的翘曲程度。IXEF 复合物提供非常优异 的表面光泽性,特别是对增强级产品而言。其无缺陷的表面不会有任何可见的表 面纤维。可见的表面纤维会妨碍喷涂、金属镀膜或对反射率的要求。该材料可提 供多种品级,包括玻璃纤维和矿物填充、高级填料增强、防火、耐冲击改质剂及 着色材料。当然这种塑料的造价比较贵,其市场价格是80000元/吨。我们开发的 产品外壳机身约1500g,原料约120元。 椅子的材料采用一般的ABS塑料作为其材宝宝去探险游戏界面具体的流程如下: 层次1:共40个基本的小故事组成的小游戏,情节简单,背景内容来源于生活,文 字简短,易理解,调用随机函数出现故事界面。语音提示,在屏幕上显示为指读, 被读到的文字处变为凸起。 在这一部分40个小故事会循环3到4遍,由随机函数调用实现,以加深孩子的记忆, 每增加一遍指读速度提高一点。 层次2:共40个小故事,情节稍稍复杂,牵扯3个人或物。文字有一定的长度,大 约120字左右。语音提示,但不再显示指读。循环如上。 以上两个层次为基础层次,旨在教会孩子最基本的800汉字。 层次3:长篇的整体性的故事情节,注重情节的趣味性和故事的过程性。故事可分 为4部分,过关升级型游戏产品,每部分之前有说明文字,借以讲清楚故事的背景, 画面中有路标或其他的说明文字,儿童若不认识有提示图标,语音帮助。使得孩 子自发的主动地在使用过程中认识汉字。 本层次诸多产品可以更新,保持儿童较长时间的趣味性。
1、方案特色:
(1.)“界面定制”:不同的儿童喜欢不同的界面特色,不同的界面 风格会对孩子认知产生不同的影响。家长购买产品后需要根据孩子的 个性特点和年龄情况做一份简单的问卷,系统会以此调用不同的界面, 已满足 “界面定制”的个性化要求。
(2.)动态变化的系统界面。该儿童电脑的界面具体分为3—5.5, 5.5—6,6—11岁三个阶段。根据儿童年龄的变化,系统会在适合的 时间变化界面,形成更适合儿童成长的要求,随着不同阶段智利发展 层次的需要进行合理的设计,逐渐放宽孩子的权限。在切换到新的界 面的最初的使用中,会有语音提示的帮助显缺陷) (较好) 5分(优秀)
2分(有缺陷)
3分(尚可) 4分
评分方法:小组成员4人每人分别打分,个人评定的分数为整数形式, 将每人评定出的分数加权平均后记入表格。 分析总结:我们的产品开发分为两个主要的方向,轻薄和一体化的设 计两个方向。前者主要是将笔记本的技术特征加以运用,做成便携的 儿童电脑的形式,试想儿童带着自己的宝贝随处的走动和玩耍的各种 情形,多采用可伸缩的、可以大角度调节的支架结构,可随处搬动, 实现坐在地上玩,趴在床上玩等儿童特有的玩耍方式。后者主要是将 座椅和PC作为整体进行设计,座椅的高度可以调整以适应儿童的生长 特点,也有利于儿童正确的坐姿和学习方式的养成。 评价结论:鉴于定位于高端市场和高附加值的产品特点, Embrace baby(爱宝贝)一款在诸多方面有明显优势,最两部分。 Part1:宝宝的奇妙天空 这一部分通过一系列小故事教会孩子科学和知 识。将游戏作为知识的载体,以孩子的生活内 容为设计主线,通过把故事情节表现为三维的 场景,让孩子有身临其境的感受,从而加深记 忆和理位于高端消费的儿童电脑市场