STEVAL-CCM003V1 Graphic panel with ZigBee features based on the STM32 and SPZBE260 module Data brief Features Microsoft FAT16/FAT32 compatible library JPEG decoder algorithm S-Touch-based touch keys for menu navigation MEMS-controlled image orientation based on frame alignment User programmable time interval for pictures ZigBee module for user applications Date, time and temperature display USB mass-storage connectivity for picture transfer STEVAL-CCM003V1 Rechargeable battery powered button, or the system can be expanded to record On-board JTAG connector for firmware the images when motion is detected by the upgrade camera (using the PIR sensor). RoHS compliant The monitoring unit scans for JPEG images on the ZigBee network. Once the images are Description available on the network, it captures the images. These JPEG images are then converted into BMP The complete system is designed as two separate format for display on the on-board TFT. Both units hardware units. can be powered either from a battery or through The STEVAL-CCM003V2 described in this USB. The system can be configured to enter document, also called monitoring unit, consists standby mode as per the user configuration. This of a TFT and ZigBee module interfaced with the feature helps reduce system power consumption. STM32 for viewing / monitoring JPEG images. These features render the system suitable for applications where certain areas require wireless The second unit, called the camera unit is the monitoring, such as door phones or baby STEVAL-IFV001V1 and consists of a camera with monitoring systems. a ZigBee module interfaced with the STM32 microcontroller. The STM32 microcontroller in the camera unit captures JPEG images from the camera (using DMA) and transfers them to the ZigBee network using the SPI-controlled SN260 module. The images are transferred in JPEG format, which helps to reduce transfer time on the ZigBee network. The camera unit can also record these images in the on-board memory (microSD card) using the FAT file system. The user can record these images at the click of a March 2010 Doc ID 17198 Rev 1 1/7 For further information contact your local STMicroelectronics sales office. www.st.com 7 Obsolete Product(s) - Obsolete Product(s) 2&217 2/5 6(&7 3 3 3 %7 B 3 %7 B S)S) 9 &. 3% B 9 95() 95() 3 % & 3 B/ 9 3 3& % & 3 B/ & 3& B/ 3 3& % & B 3 B/ 3 3& 6B 3 < < 3 7 3: *B &+5 3 B 3 3& .+ B 3 B 3 1567 % & B 3 B/ 3 % & B 3 B/ 3& 17 67 +2 BQ 3& B 3& BQ 3& B % % 7777 (5<(5< 3& 9 %7%7 3& 3 3 B 3& 6& B 3& B2 S)S) 3 57 3( 5 0 3& 3 3 3 87 B2 %7 3( B 3 .+ .+ < < S)S) 9 6& B 3& B2 ( 3 B/ ( 3 B/ 636636 6:6: 6:6: 9& %22 %22 8 8 Schematic diagrams STEVAL-CCM003V1 1 Schematic diagrams Figure 1. Microcontroller circuit schematic 07-B*36 B3 0 B%68B (6(37 B%B 57 630 (32 B26 ,3& B 06 B B 3& B06 B6 ,2 % .(=: ,B%= 0:3 1,7 7B B B B26= ,%3%0B B= B 3%,026% 6%=B 3% B66%BQ = NN N N 3% 3% 3% 3% B B966 7 - . & 3 3 B9 7 - , 3 3 966 B 2B 0 6 , 6 B 3& B 3& 3% 7 676 6B B 3% B 0 6 6 B 3 & B 3& 3% 7 6 76&/ 6 B B 3% B 7 . & B2 0 6 , 6 B 3& B 3& 3( % & B 3( B/ 7 % B & 3 B/ 3 3( % & B 3( B/ % B & 3 B/ 3 3( % & B 3( B/ 0 & 2B 0 6 , 6 B 3 B 3 3( % & B 3( B/ 0 7 (1 0 , 3 B B 3 3( % & B 3( B/ 3 3( % & B 3( B/ 3 3( % & B 3( B/ ( 3 B/ 3 3( % & B 3( B/ ( 3 B/ 3 3( % & B 3( B/ 7 - 2 3% 7 %22 3% 7 %22 - 3% 3% 7 (6( 5 6 3% 7 B B 3% 3% 17 67 , B 3% B 67 %< *B &+5 3% B 3% 3& 5(6( = 7 % BQ 3& B 3& 6 7 %72 +. :3 8 B 3& B 3% 3 567 *B &+5 3% B 0(306B 0 6,B2 7 %22 3 0(306B 0 62B, 7 %22 6 , 3% 3 0(306 B6.& B )) 6 , 3% 3 %7.83: 3 B B 0 ( 0 , 6 B 3( 9 87 . B2 / %7& B 3( B 3( 966 B 966 B 3 %773 B B 76 52,0,&(/15 B9 N N 3( 3( 3( 3( 3( 9% 7 &7 &,126 6 2& 966B B B& 7B28& 966 : 83. 76 )) 79% Q Q 67 &B 8&B72 675B3 67&B3 B%7B 5 3& B/567& BQ B56 1, 6& B23& B287 )) /5% Q Q &603(0B(6 B 1%73( B 8BB3 (B% 17 3 ./& B )) Q Q )) X X ++ 9% 7 X X )) Q Q ) Q Q) )) Q Q )) B3%B7B3%B7 ,1 3& B26& B287 Q Q B& 782B& )) Q Q 67 )) Q Q 966 7 & SS )) + + 62 70 76 - V 2/7 Doc ID 17198 Rev 1 Obsolete Product(s) - Obsolete Product(s) 5 5 & & Q5 *1 Q5 Q5 9 & & 56 5 5 9 9 5 5 5 5 0 0 /(/( 9 5 5 9 5 5 /(/( 8 8 - - & & 9 B&/.B, 9 B 3( 86% 3 *1 &2&2 1 1 B&/.B, 1& B -7 & & B 86% 3 5 5 B B & B &+* 3& B2 87 *1 9 & & 26 ,1 26 ,1 26 26 670670 9(7 9(7 26 ,1 Q5 3& B/ & B /B &17 5 5 0 0 0 0 & & 3& B/ & BQ &6 *1 26 / / & & 9 & & & & *1 9 9 *1 *1 9 9 & & & & & & & & & & 9 *1 *1 9 B 17 3( B 3% & B B 3% & B &/ B 3% *B -7 567 17 B 3% *B -7 3 B/ & BQ :5 3 B/ & BQ 5 ,2B *1 B *B -7 9 B *B -7