Difference between revisions of "Tiny v2"

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|5||ADC_5||IN||Analog to Digital Converter Input #5 (Maximum input level can be selected with R13 & R15values)||
|5||ADC_5||IN||Analog to Digital Converter Input #5 (Maximum input level can be selected with R13 & R15values)||
|}
|}
{|border="1"  cellspacing="0" style="text-align:center" cellpadding="6"
|+'''DOWNLOAD'''
!''Pin #''!!''Name''!!''Type''!!''Description''!!width="50"|''Suggested Color''
|-
|1||GND||PWR||common ground||style="background:black; color:white"|Black
|-
|2|| +5v||PWR||5V Rail from Tiny||style="background:Orange; color:white"|Orange
|-
|3|| +3.3V||PWR||3.3V Rail from Tiny||style="background:red; color:white"|Red
|-
|4||BOOT||IN||In-Circuit Serial Programming (ISP) enable (P0.14, +3.3v pullup) ''(Note 2)''||
|-
|5||GPS_RESET||IN|| ||
|-
|6||TXD0||IN||UART0 Serial Output||style="background:blue; color:white"|Blue
|-
|7||RXD0||IN||UART0 Serial Input||style="background:green; color:white"|Green
|}
''Note 2 : Holding this pin low for at least 3mS after a RESET (or power up) instructs the controller to enter programming mode.''

Revision as of 12:22, 9 December 2007

Features

  • Single LPC2148 MCU
  • 8 Analog input channels 0V - 3.3V (2 channels with optional on-board 5v -> 3.3v resistor bridge)
  • 1 3.3V TTL UART (5V tolerant)
  • 8 PWM outputs
  • 1 R/C receiver PPM frame input
  • 1 SPI bus
  • 1 I2C bus
  • 1 USB (client)
  • Integrated GPS receiver and patch antenna (4Hz update)
  • 5V/2.5A switching power supply & 3.3V/1A linear regulator
  • 3 status LEDs with attached test point
  • ?? grams
  • 70.8 x 40mm (smaller then a banking card)
  • 2 layers PCB design, 0603 components

The Tiny v2.1 autopilot uses a single Philips LPC2148 ARM7 based microcontroller. The ARM7 is a low-power 32-bit RISC processor core and the Philips LPC2148 has 512KB on-chip Flash ROM, 40KB RAM and can be clocked at 60MHz.

Although critical control code such as the R/C interface and servo output are well segregated in Paparazzi software and well protected from interference from flaws in the stability/navigation/comm/payload code, great care must be taken when experimenting with new software as some errors can cause a the processor to halt or stall for extended periods causing total loss of control.

Architecture

Pinout

Pins Name and Type are specified with respect to the Autopilot Board

Tiny v2-1 pinout.png


SERIAL
Pin # Name Type Description Suggested Color
1 GND PWR common ground Black
2 +5V PWR 5V Rail from Tiny Orange
3 +3.3V PWR 3.3V Rail from Tiny Red
4 DTR
5 CTS
6 RTS
7 RXD1 IN UART1 Serial Input (5V Tolerant) Green
8 TXD1 OUT UART1 Serial Output (5V Tolerant) Blue


SPI
Pin # Name Type Description Suggested Color
1 GND PWR common ground Black
2 +3.3V PWR 3.3V Rail from Tiny Red
3 SSEL IN SSP Slave Select. Selects the SSP interface as a slave (SSEL1)
4 MOSI I/O SPI1 Master Out Slave In. Data output from master or data input to slave
5 MISO I/O SPI1 Master In Slave Out. Data input to master or data output from slave
6 DRDY IN External interrupt 0 input (EINT0)
7 SCK I/O SPI0 Serial clock. Clock output from master or input to slave


PPM
Pin # Name Type Description Suggested Color
1 GND PWR common ground Black
2 +5v PWR 5V Rail from Tiny to R/C receiver supply Orange
3 PPM_IN IN PPM Stream from R/C Receiver (5V tolerant) White
4 SERV_RST OUT external PPM decoder reset (Note 1)
5 SERV_CLK OUT external PPM decoder clock (Note 1)

Note 1 : Used only if servos are connected to the R/C receiver


USB
Pin # Name Type Description Suggested Color
1 GND PWR common ground Black
2 +3.3V PWR 3.3V Rail from Tiny Red
3 USB+ I/O USB bidirectional D+ line Green
4 USB- I/O USB bidirectional D- line White
5 VBUS IN Indicates the presence of USB bus power (P0.23) (5V Tolerant) Orange
6 BUTTON IN External Button (+3.3v pullup)
7 LED3 OUT GPIO (LED #3 command)
8 ADC_7 IN Analog to Digital Converter Input #7


IRV
Pin # Name Type Description Suggested Color
1 GND PWR common ground Black
2 +3.3V PWR 3.3V Rail from Tiny Red
3 ADC_0 IN Vertical IR Sensor signal (Analog to Digital Converter Input #0) Purple


IRH
Pin # Name Type Description Suggested Color
1 GND PWR common ground Black
2 +3.3V PWR 3.3V Rail from Tiny Red
3 ADC_2 IN Horizontal IR Sensor signal axis 2 (Analog to Digital Converter Input #2) Grey
4 ADC_1 IN Horizontal IR Sensor signal axis 1 (Analog to Digital Converter Input #1) Braun


ADC1
Pin # Name Type Description Suggested Color
1 GND PWR common ground Black
2 +5v PWR 5V Rail from Tiny Orange
3 +3.3V PWR 3.3V Rail from Tiny Red
4 ADC_4 IN Analog to Digital Converter Input #4
5 ADC_3 IN Analog to Digital Converter Input #3


ADC2
Pin # Name Type Description Suggested Color
1 GND PWR common ground Black
2 +5v PWR 5V Rail from Tiny Orange
3 +3.3V PWR 3.3V Rail from Tiny Red
4 ADC_6 IN Analog to Digital Converter Input #6 (Maximum input level can be selected with R12 & R14 values)
5 ADC_5 IN Analog to Digital Converter Input #5 (Maximum input level can be selected with R13 & R15values)


DOWNLOAD
Pin # Name Type Description Suggested Color
1 GND PWR common ground Black
2 +5v PWR 5V Rail from Tiny Orange
3 +3.3V PWR 3.3V Rail from Tiny Red
4 BOOT IN In-Circuit Serial Programming (ISP) enable (P0.14, +3.3v pullup) (Note 2)
5 GPS_RESET IN
6 TXD0 IN UART0 Serial Output Blue
7 RXD0 IN UART0 Serial Input Green

Note 2 : Holding this pin low for at least 3mS after a RESET (or power up) instructs the controller to enter programming mode.