Difference between revisions of "Umarim v1.0"
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The ENAC team has been working on long endurance airplanes for a while now. It appeared that one of the many limitations was the integration of the electronic part into the new fuselages which are becoming thinner and thinner. So we started to work on a new version of autopilot mainly based on the well-known tiny. The new sensors becoming smaller and smaller, we were able to integrate onto the board the IMU and a new design of barometer. So now, the ENAC team is proud to present you the UMARIM! (which means "I Hope" in turkish) | The ENAC team has been working on long endurance airplanes for a while now. It appeared that one of the many limitations was the integration of the electronic part into the new fuselages which are becoming thinner and thinner. So we started to work on a new version of autopilot mainly based on the well-known tiny. The new sensors becoming smaller and smaller, we were able to integrate onto the board the IMU and a new design of barometer. So now, the ENAC team is proud to present you the UMARIM! (which means "I Hope" in turkish) | ||
[[Image:Umarim_v1-0_bottom_side.jpg|right|600px|Umarim v1.0 | [[Image:Umarim_v1-0_bottom_side.jpg|right|600px|Umarim v1.0 bottom side]] | ||
<br> | <br> | ||
== Hardware Revision History == | == Hardware Revision History == |
Revision as of 07:42, 16 October 2011
The ENAC team has been working on long endurance airplanes for a while now. It appeared that one of the many limitations was the integration of the electronic part into the new fuselages which are becoming thinner and thinner. So we started to work on a new version of autopilot mainly based on the well-known tiny. The new sensors becoming smaller and smaller, we were able to integrate onto the board the IMU and a new design of barometer. So now, the ENAC team is proud to present you the UMARIM! (which means "I Hope" in turkish)
Hardware Revision History
Version # | Release Date | Release Notes |
---|---|---|
v1.0 | 09/2011 | Initial release of Umarim |
Features
- NXP LPC2148 MCU based
- 1 x Triple axis Digital Gyroscope (Invensense ITG-3200)
- 1 x Triple axis Digital Accelerometer (Analog Devices ADXL345)
- 1 x Digital Baro-altimeter (Freescale MPXA6115 pressure sensor + Texas Instruments ADS1114 16bits ADC/PGA)
- 6 x Servo PWM outputs
- 1 x R/C receiver PPM frame input
- 2 x UART (TTL 3.3V, 5V tolerant)
- 2 x I2C bus
- 1 x SPI bus
- 1 x USB (client)
- 4 x General Purpose I/O or Analog input channels (0V - 3.3V)
- 5v / 1.5A switching power supply (input voltage range 5.5V min → 17.0v max)
- 3.3v / 1A linear regulator
- 2 x status LEDs
- 9 grams (0,32 oz)
- 56 x 25mm (2.2" x 0.98")
- 4 layers PCB design
Pinout
Pins Name and Type are specified with respect to the Autopilot Board
Pin # | Name | Type | Description | Color |
---|---|---|---|---|
1 | GND | PWR | common ground | Black |
2 | +5V | PWR | 5V Rail from autopilot | Orange |
3 | SRVx | OUT | Servo signal (PWM) | White |
Pin # | Name | Type | Description | Color |
---|---|---|---|---|
1 | GND | PWR | common ground | Black |
2 | +5v | PWR | 5V Rail from autopilot | Orange |
3 | PPM_IN | IN | PPM Stream from R/C Receiver (5V tolerant) | White |
Pin # | Name | Type | Description | Color |
---|---|---|---|---|
1 | GND | PWR | common ground | Black |
2 | +3.3V | PWR | 3.3V Rail from autopilot | Red |
3 | SSEL1 | IN | SSP Slave Select. Selects the SSP interface as a slave (SSEL1) | Brown |
4 | MOSI1 | I/O | SPI1 Master Out Slave In. Data output from master / data input to slave | Grey |
5 | MISO1 | I/O | SPI1 Master In Slave Out. Data input to master / data output from slave | Green |
6 | DRDY1 | IN | External interrupt 0 input (EINT0) | Purple |
7 | SCK1 | I/O | SPI1 Serial clock. Clock output from master or input to slave | Yellow |
Pin # | Name | Type | Description | Color |
---|---|---|---|---|
1 | GND | PWR | common ground | Black |
2 | +5V | PWR | 5V Rail from autopilot | Orange |
3 | +3.3V | PWR | 3.3V Rail from autopilot | Red |
4 | AUX1 | I/O | General Purpose I/O #1 or ADC Input (AD1.5) | |
5 | AUX2 | I/O | General Purpose I/O #2 or ADC Input (AD1.4) | |
6 | AUX3 | I/O | General Purpose I/O #3 or ADC Input (AD1.3) | |
7 | AUX4 | I/O | General Purpose I/O #4 or ADC Input (AD1.2) |
Pin # | Name | Type | Description | Color |
---|---|---|---|---|
1 | GND | PWR | common ground | Black |
2 | +3.3V | PWR | 3.3V Rail from autopilot | Red |
3 | RXD0 | IN | UART0 Serial Input (3.3V level, 5V Tolerant) | Green |
4 | TXD0 | OUT | UART0 Serial Output (3.3V level) | Blue |
Pin # | Name | Type | Description | Color |
---|---|---|---|---|
1 | GND | PWR | common ground | Black |
2 | +3.3V | PWR | 3.3V Rail from autopilot | Red |
3 | RXD1 | IN | UART1 Serial Input (3.3V level, 5V Tolerant) | Green |
4 | TXD1 | OUT | UART1 Serial Output (3.3V level) | Blue |
Pin # | Name | Type | Description | Color |
---|---|---|---|---|
1 | GND | PWR | common ground | Black |
2 | +3.3V | PWR | 3.3V Rail from autopilot | Red |
3 | SDA0 | Open Drain I/O |
I2C0 bus Serial DAta | Brown |
4 | SCL0 | Open Drain I/O |
I2C0 bus Serial CLock | Blue |
Pin # | Name | Type | Description | Color |
---|---|---|---|---|
1 | GND | PWR | common ground | Black |
2 | +3.3V | PWR | 3.3V Rail from autopilot | Red |
3 | SDA1 BOOT |
Open Drain I/O |
I2C1 bus Serial DAta In-Circuit Serial Programming (ISP) enable (P0.14, +3.3v pullup) (Note) |
Brown |
4 | SCL1 | Open Drain I/O |
I2C1 bus Serial CLock | Blue |
Note: Holding this pin low for at least 3mS after a RESET (or power up) instructs the controller to enter programming mode.
Pin # | Name | Type | Description | Color |
---|---|---|---|---|
1 | GND | PWR | common ground | Black |
2 | USB+ | I/O | USB bidirectional D+ line | Green |
3 | USB- | I/O | USB bidirectional D- line | White |
4 | VBUS | IN | Indicates the presence of USB bus power (P0.23) (5V level) | Orange |
Schematic
Examples of Airborne Equipment Electrical Connections
Small Aircraft Connection Diagram
Large Aircraft Connection Diagram
PCB
Gerber & Drill Files
PCB design Eurocircuits 6-C class compliant:
Download Umarim v1.0 gerber & drill files (zip)
RS274X, units = Inches, format = 2:5
- Umarim_v1-0_SILKSCREEN_TOP.GBR (Top Component Print Layer)
- Umarim_v1-0_SOLDERMASK_TOP.GBR (Top Solder Mask)
- Umarim_v1-0_SIGNAL_TOP.GBR (Top Copper Layer)
- Umarim_v1-0_INTERNAL_PLANE_1.GBR (Internal Copper Layer GND)
- Umarim_v1-0_INTERNAL_PLANE_2.GBR (Internal Copper Layer +3.3V)
- Umarim_v1-0_SIGNAL_BOTTOM.GBR (Bottom Copper Layer)
- Umarim_v1-0_SOLDERMASK_BOTTOM.GBR (Bottom Solder Mask)
- Umarim_v1-0_OUTLINE.GBR (Board Outline)
- Umarim_v1-0_DRILL.GBR (NC XY coordinates & Drill tools sizes)
Assembly
Components Layout
Bill Of Material
Download Umarim v1.0 Bill Of Material (zipped .xls file)
Qty | Manufacturer part number |
Part name / value | Designator | Description | Manufacturer | Package type |
Digikey part number |
Other distributor | |
---|---|---|---|---|---|---|---|---|---|
Resistors | |||||||||
2 | ERJ-3EKF33R0V | 33R | R16,R17 | 33.0 Ohm 1/10W 1% | Panasonic - ECG | 0603 | P33.0HCT-ND | ||
1 | ERJ-3EKF1000V | 100R | R14 | 100 Ohm 1/10W 1% | Panasonic - ECG | 0603 | P100HCT-ND | ||
2 | ERJ-3EKF3900V | 390R | R12,R13 | 390 Ohm 1/10W 1% | Panasonic - ECG | 0603 | P390HCT-ND | ||
2 | ERJ-3EKF1501V | 1.5K | R11,R15 | 1.50K Ohm 1/10W 1% | Panasonic - ECG | 0603 | P1.50KHCT-ND | ||
1 | ERJ-3EKF1801V | 1.8K | R18 | 1.80K Ohm 1/10W 1% | Panasonic - ECG | 0603 | P1.80KHCT-ND | ||
4 | ERJ-3EKF2201V | 2.2k | R5-R8 | 2.20K Ohm 1/10W 1% | Panasonic - ECG | 0603 | P2.20KHCT-ND | ||
1 | ERJ-3EKF3301V | 3.3K | R19 | 3.30K Ohm 1/10W 1% | Panasonic - ECG | 0603 | P3.30KHCT-ND | ||
5 | ERJ-3EKF1002V | 10K | R1-R3,R9,R10 | 10.0K Ohm 1/10W 1% | Panasonic - ECG | 0603 | P10.0KHCT-ND | ||
1 | ERJ-3EKF2203V | 220K | R4 | 220K Ohm 1/10W 1% | Panasonic - ECG | 0603 | P220KHCT-ND | ||
Capacitors | |||||||||
2 | C1608C0G1H180J | 18p | C33,C34 | Ceramic 18pF 50V C0G 5% | TDK Corp. | 0603 | 445-1272-1-ND | ||
1 | C1608X7R1H222K | 2.2n/50V | C32 | Ceramic 2.2nF 50V X7R 10% | TDK Corp. | 0603 | 445-1309-1-ND | ||
1 | C1608X7R1H103K | 10n | C31 | Ceramic 10nF 50V X7R 10% | TDK Corp. | 0603 | 445-1311-1-ND | ||
24 | CC0603KRX7R8BB104 | 100n | C1-C9,C14-C27,C35 | Ceramic 0.1uF 25V X7R 10% | Yageo | 0603 | 311-1341-1-ND | ||
4 | C1608X5R1E105K | 1u/25V/X5R | C11,C12,C29,C36 | Ceramic 1.0uF 25V X5R10% | TDK Corp. | 0603 | 445-5146-1-ND | ||
1 | C1608X5R0J106M | 10u/6.3V | C30 | Ceramic 10uF 6.3V X5R 20% | TDK Corp. | 0603 | 445-4112-1-ND | ||
2 | TAJA336K006RNJ | 33u/6.3v | C13,C28 | Tantalum 33uF 6.3V 10% | AVX Corp. | A case (EIA 3216-18) | 478-1666-1-ND | ||
1 | TR3D107K020C0080 | 100u/20V | C10 | Tantalum 100uF 20V 10% | Vishay/Sprague | D case (EIA 7343-31) | 718-1774-1-ND | ||
Inductors | |||||||||
1 | B82462G4682M | 6.8u | L1 | 1.65A Power Inductor | Epcos Inc. | 6.0x6.0 mm | 495-1999-1-ND | ||
Semiconductors | |||||||||
1 | MPXH6115AC6U | MPXH6115AC6U | IC1 | Integrated Silicon Pressure Sensor | Freescale Semicond. | 1317A-03 | MPXH6115AC6U-ND | ||
1 | ADS1114IRUGT | ADS1114RUG | IC2 | 16-BIT I2C Analog-to-Digital Converter | Texas Instruments | X2QFN10 | 296-24933-1-ND | ||
1 | PCA9306DCUR | PCA9306DCU | IC3 | Dual Bidirectional I2C Voltage-Level Translator | Texas Instruments | VSSOP8 | 296-17988-1-ND | ||
1 | TPS62112RSAT | TPS62112 | IC4 | 17V, 1.5-A, Synchronous Step-Down Converter | Texas Instruments | QFN16 | 296-19717-1-ND | ||
1 | LM3940IMP-3.3/NOPB | LM3940IMP-3.3 | IC5 | 1A low dropout regulator for 5V to 3.3V conversion | National Semicond. | SOT223 | LM3940IMP-3.3CT-ND | ||
1 | LT6656BCS6-3.3#TRMPBF | LT6656S6-3V3 | IC6 | 3.3V Precision Voltage Reference | Linear Technology | SOT23-6 | LT6656BCS6-3.3#TRMPBFCT-ND | ||
1 | ADXL345BCCZ-RL | ADXL345 | IC7 | 3-Axis 16 g Digital Accelerometer | Analog Devices Inc. | LGA14 | ADXL345BCCZ-RLCT-ND | ||
1 | LPC2148FBD64,151 | LPC2148FBD64 | IC8 | Single-chip ARM7 32-bit microcontroller | NXP Semicond. | LQFP64 | 568-1765-ND | ||
1 | ITG-3200 | ITG-3200 | IC9 | 3-Axis Digital-Output Gyroscope | InvenSense | QFN24 | N/A | Farnell(#1858279)
Sparkfun(#SEN-09793)" | |
1 | CD4017BPWR | 4017 | IC10 | Decade Counter/Divider with 10 Decoded Outputs | Texas Instruments | TSSOP16 | 296-14252-1-ND | ||
1 | LT6656BCS6-5#TRMPBF | LT6656S6-5 | IC11 | 5V Precision Voltage Reference | Linear Technology | SOT23-6 | LT6656BCS6-5#TRMPBFCT-ND | ||
1 | APT1608SURCK | KP-1608SURC | LED1 | SMD Chip Red LED Lamp | Kingbright Corp. | 0603 | 754-1123-1-ND | ||
1 | APT1608MGC | KP-1608MGC | LED2 | SMD Chip Green LED Lamp | Kingbright Corp. | 0603 | 754-1118-1-ND | ||
1 | DTA143ZE-TP | DTA143ZE | T1 | PNP Pre-Biased Small Signal Transistor | Micro Commercial Co. | SOT523 | DTA143ZE-TPMSCT-ND | ||
Connectors | |||||||||
7 | 53047-0310 | RC,SRV0-3,SRV6-7 | J3,J8-J13 | Picoblade 3 pins 1.25mm straight header | Molex Inc. | - | WM1732-ND | ||
5 | 53047-0410 | UART0-1,USB | J2,J5-J7,J14 | Picoblade 4 pins 1.25mm straight header | Molex Inc. | - | WM1733-ND | ||
2 | 53047-0710 | SPI1,AUX | J4,J15 | Picoblade 7 pins 1.25mm straight header | Molex Inc. | - | WM1736-ND | ||
Other | |||||||||
1 | CX5032GB12000H0PESZZ | CX5032GB12000 | Q1 | CRYSTAL 12.0MHZ 12PF SMD | AVX Corp. | 5.0x3.2mm | 478-4359-1-ND |
PCB and assembled boards suppliers
Hopefully, available soon on Get Hardware page :)
Mechanical Dimensions
Downloads
Source files
Gerber & Drill files
Assembly files
Paparazzi USB Bootloader Upload Connection Diagram
Required components:
- 1 x FTDI TTL-232R-3V3 (Digikey #768-1015-ND) USB to UART converter cable with +3.3V TTL level UART signals. (see Note 1)
- 2 x 4-pin connector housing Molex Picoblade 51021-0400 (Digikey #WM1722-ND)
- 5 x crimp terminal female Molex Picoblade 50058-8000 (Digikey #WM1775CT-ND)
- 1 x 6-pin 0.1" pitch single in line male connector header Samtec TSW-132-07-TS (Digikey #SAM1035-32-ND) or equivalent
- 28-32AWG wiring cable
Note1: It is advised to use FTDI USB-serial converter, as serial FTDI chips are by default working well in Linux.
As a nice bonus, the Paparazzi ground station software is configured to look for modems on FTDI ports by default, the converter can likely serve as a modem interface after it's use in Bootloader uploading.