SCIboard(TM): mbed base board data logger - Altimeter: MPL3115A2 - Accelerometer: LSM303DLHC - Gyro: L3G4200D - 4 High Current MOSFET switches

Dependencies:   mbed

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Product Description

SCIboard will take your model rocketry, science, or engineering project to new heights with a complete 10-Degree-Of-Freedom (10-DOF) Inertial Measurement Unit (IMU), 4 high current MOSFET switches, PWM interface (RC servos), USB (memory sticks or BlueTooth) and interfaces for GPS and an XBee® RF module. The SCIboard is an mbed base board ideal for use in college and high school science labs, science fair projects, high power model rocketry, model airplanes, and near space balloon projects. SCIboard is also designed for Open Source software so you can customize the application. Example applications include high power model rocketry, near space balloon projects, and R/C airplanes/quadcopters. While SCIboard requires some basic electronics and software knowledge, it combines multiple breakout boards into a single base board which improves reliability, especially in high g environments such as in model rocketry. Available on Amazon. Search on "SCIboard".

  • Dimensions: 1.5 x 3.8 inches (3.8 x 9.7 cm)
  • Weight: 0.8 ounces (24 g)

10-DOF Inertial Measurement Unit

Going beyond just the 6 degrees of freedom afforded by a 3-axis accelerometer and 3-axis gyro, SCIboard includes an additional 3-axis magnetometer, and highly accurate altimeter / atmospheric pressure sensor. Sensors provide digital measurements over an I2C shared bus (p27 and p28).

Precision Altimeter

(Freescale Semiconductor – MPL3115A2) MEMS pressure sensor with 24-bit Analog-to-Digital Converter (ADC) employs temperature compensation resulting in fully compensated 20-bit pressure/altitude measurements (resolution down to 1 foot).

  • Pressure range: 50 – 110 kPa.
  • Pressure reading noise: 1.5 Pa RMS over -10 to +70° C. Conversion rate: up to 100 Hz.
  • 12-bit temperature sensor measurement range: -40 to +85° C.

3-Axis MEMS Accelerometer

(STMicroelectronics – LSM303DLHC) The sensor measures linear acceleration. Pointing any axis to the earth will apply 1 g in that axis when stationary.

  • Selectable full scale range: +/-2 g to +/-16 g.
  • Sensitivity: 1 – 12 mg/LSB depending on full scale range.
  • Zero-g level offset: +/-60 mg.
  • Acceleration noise density: 220 micro-g/sqrt(Hz).
  • Operating temp range: -40 to +85° C.
  • Conversion rate up to 400 Hz.

3-Axis Ultra-Stable MEMS Gyroscope

(STMicroelectronics – L3G4200D) A gyroscope is an angular rate sensor.

  • Selectable full scale ranges: 250/500/2000 degrees per second (DPS).
  • Resolution: 16-bit.
  • Bandwidth: user selectable.
  • Sensitivity: 8.75/17.50/70 milli-degrees per second/LSB.
  • Nonlinearity: 0.2% full scale
  • Rate noise density: 0.03 DPS/sqrt(Hz).
  • Operating temp range: -40 to +85°C.

Digital I/O

4 MOSFET switches are included. They provide 6-amperes momentary current sinking. Example uses include high power strobes, and lights for night launches or buzzers for location. Switches can be activated at apogee or prior to landing for model rocketry. A continuity check through an analog to digital converter allows verification of circuit continuity before launch. A piezoelectric buzzer provides software control for audible alert and low battery voltage measurement.

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Host USB Type-A with 5.0 Vdc regulator

USB Type-A connector wired as a host controller provides regulated 5 volt power from a battery. A variety of USB devices from memory sticks, Bluetooth, and Wi-Fi can be used with multiple software projects from the mbed web site.

XBee® and XBee-PRO® Modules

The XBee-PRO® interface supports multiple different XBee and XBee-PRO modules such as Wi-Fi, ZigBee, 802.15.4, Bluetooth, and longer range 900 MHz RF Modules. Compatible modules are Roving Networks and Digi-International. SCIboard provides dual 10 pin headers with regulated 3.3 volt power (from p40) and serial UART (Tx=p9/Rx=p10). Alternatively if the headers are not installed, the serial port may be connected to a SMS cell phone evaluation module. Since the 3.3 volt provided to XBee modules is from the mbed regulator, the user is responsible for power calculations. Testing was done with RN-XV and a 9-volt battery but higher battery voltages or higher current XBee modules could overheat the 3.3 volt regulator on the mbed. When using XBee modules, the user may need to perform hard/soft iron calibration if using the magnetometer.

Interface for GPS

SCIboard provides a serial UART interface for GPS receivers. It also provides 3.3 and 5.0 Vdc for power and Vbat (battery not included). PCB has 0.1” holes for soldered cable or header of your choice. This provides flexibility to use a variety of GPS modules.

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Interface for Ethernet Cable

PCB has 0.1” interface for an Ethernet cable of your choice of Ethernet magnetics interface with LEDs. For Ethernet direct wire, use RD-, RD+, TD+, and TD-. For magnetics, several 3.3 Vdc and Grounds are provided allowing easy interfacing. For both LEDs a 160 ohm resistor is provided. Both LEDs share the 2 PWMs out.

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Interface for PWM RC Servos

SCIboard provides a Pulse Width Modulation (PWM) header for RC servo motors. Up to 6 PWM servos can be controlled. Terminal block is provided for separate servo power source if desired. If the user chooses to not install the headers, the PCB has 0.1” spacing thru-holes for 3-pin R/C servos. (Pins 21 – 26)

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Applications

A 10-Degree-Of-Freedom Inertial Measurement Unit (IMU) can be used to measure distance traveled, velocity, acceleration, attitude (yaw, pitch, and roll), and attitude rate. When combined with a GPS, SCIboard will provide a GPS aided inertial navigation solutions. The PWM can be used to control a camera attached to a servo motor. This enables near space projects to point the camera up at the weather balloon, horizontally at the earth’s horizon, and down directly at the earth.

  1. College and high school science labs
  2. Science Fairs
  3. High Power Model Rocketry
  4. Near Space Balloons
  5. Quadcopters
  6. R/C Airplanes
  7. R/C Helicopter

Processor Board Support (Direct Pin-Out compatible)

  • mbed LPC1768
  • mbed LPC11U24
  • Embedded Artists LPCexpresso LPC1769
Committer:
AstrodyneSystems
Date:
Sun Apr 06 19:03:29 2014 +0000
Revision:
5:dc778a682d29
Parent:
3:a0863e392562
Added ublox GPS

Who changed what in which revision?

UserRevisionLine numberNew contents of line
AstrodyneSystems 3:a0863e392562 1 /* SCIboard(TM) L3G4200DTR.h
AstrodyneSystems 3:a0863e392562 2 Copyright (c) 2013 K. Andres
AstrodyneSystems 3:a0863e392562 3
AstrodyneSystems 3:a0863e392562 4 Permission is hereby granted, free of charge, to any person obtaining a copy
AstrodyneSystems 3:a0863e392562 5 of this software and associated documentation files (the "Software"), to deal
AstrodyneSystems 3:a0863e392562 6 in the Software without restriction, including without limitation the rights
AstrodyneSystems 3:a0863e392562 7 to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
AstrodyneSystems 3:a0863e392562 8 copies of the Software, and to permit persons to whom the Software is
AstrodyneSystems 3:a0863e392562 9 furnished to do so, subject to the following conditions:
AstrodyneSystems 3:a0863e392562 10
AstrodyneSystems 3:a0863e392562 11 The above copyright notice and this permission notice shall be included in
AstrodyneSystems 3:a0863e392562 12 all copies or substantial portions of the Software.
AstrodyneSystems 3:a0863e392562 13
AstrodyneSystems 3:a0863e392562 14 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
AstrodyneSystems 3:a0863e392562 15 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
AstrodyneSystems 3:a0863e392562 16 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AstrodyneSystems 3:a0863e392562 17 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
AstrodyneSystems 3:a0863e392562 18 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
AstrodyneSystems 3:a0863e392562 19 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
AstrodyneSystems 3:a0863e392562 20 THE SOFTWARE.
AstrodyneSystems 3:a0863e392562 21 */
AstrodyneSystems 3:a0863e392562 22
AstrodyneSystems 3:a0863e392562 23 #ifndef __SCIboard_L3G4200DTR_H
AstrodyneSystems 3:a0863e392562 24 #define __SCIboard_L3G4200DTR_H
AstrodyneSystems 3:a0863e392562 25
AstrodyneSystems 3:a0863e392562 26 #include "mbed.h"
AstrodyneSystems 3:a0863e392562 27 #include "SCIboard_I2C.h"
AstrodyneSystems 3:a0863e392562 28
AstrodyneSystems 3:a0863e392562 29 // STMicroelectronics www.st.com - Ultra-stable three-axis digital output gyroscope
AstrodyneSystems 3:a0863e392562 30 // Preliminary data 12/2010
AstrodyneSystems 3:a0863e392562 31 #define L3G4200DTR_I2C_ADDR (0x69<<1)
AstrodyneSystems 3:a0863e392562 32
AstrodyneSystems 3:a0863e392562 33 // Gyro registers
AstrodyneSystems 3:a0863e392562 34 #define GYRREG_WHO_AM_I 0x0F
AstrodyneSystems 3:a0863e392562 35 #define GYRREG_CTRL_REG1 0x20
AstrodyneSystems 3:a0863e392562 36 #define GYRREG_CTRL_REG2 0x21
AstrodyneSystems 3:a0863e392562 37 #define GYRREG_CTRL_REG3 0x22
AstrodyneSystems 3:a0863e392562 38 #define GYRREG_CTRL_REG4 0x23
AstrodyneSystems 3:a0863e392562 39 #define GYRREG_CTRL_REG5 0x24
AstrodyneSystems 3:a0863e392562 40 #define GYRREG_REFERENCE 0x25
AstrodyneSystems 3:a0863e392562 41 #define GYRREG_OUT_TEMP 0x26
AstrodyneSystems 3:a0863e392562 42 #define GYRREG_STATUS 0x27
AstrodyneSystems 3:a0863e392562 43 #define GYRREG_OUT_X_L 0x28
AstrodyneSystems 3:a0863e392562 44
AstrodyneSystems 3:a0863e392562 45 // Output Data Rate (DR)
AstrodyneSystems 3:a0863e392562 46 #define GYR_DR_100HZ 0
AstrodyneSystems 3:a0863e392562 47 #define GYR_DR_200HZ 1
AstrodyneSystems 3:a0863e392562 48 #define GYR_DR_400HZ 2
AstrodyneSystems 3:a0863e392562 49 #define GYR_DR_800HZ 3
AstrodyneSystems 3:a0863e392562 50
AstrodyneSystems 3:a0863e392562 51 // Bandwidth
AstrodyneSystems 3:a0863e392562 52 #define GYR_BW_0 0
AstrodyneSystems 3:a0863e392562 53 #define GYR_BW_1 1
AstrodyneSystems 3:a0863e392562 54 #define GYR_BW_2 2
AstrodyneSystems 3:a0863e392562 55 #define GYR_BW_3 3
AstrodyneSystems 3:a0863e392562 56
AstrodyneSystems 3:a0863e392562 57 // Full Scale
AstrodyneSystems 3:a0863e392562 58 #define GYR_FS_250DPS 0
AstrodyneSystems 3:a0863e392562 59 #define GYR_FS_500DPS 1
AstrodyneSystems 3:a0863e392562 60 #define GYR_FS_2000DPS 2
AstrodyneSystems 3:a0863e392562 61
AstrodyneSystems 3:a0863e392562 62 // STATUS_REG
AstrodyneSystems 3:a0863e392562 63 #define STATUS_REG_ZYXDA 0x08
AstrodyneSystems 3:a0863e392562 64
AstrodyneSystems 3:a0863e392562 65 class SCIboard_L3G4200DTR
AstrodyneSystems 3:a0863e392562 66 {
AstrodyneSystems 3:a0863e392562 67 public:
AstrodyneSystems 3:a0863e392562 68 SCIboard_L3G4200DTR(SCIboard_I2C *ptr_I2C, int iDR, int iBW, int iFS);
AstrodyneSystems 3:a0863e392562 69 unsigned char getDeviceID(void);
AstrodyneSystems 3:a0863e392562 70 unsigned char getStatus(void);
AstrodyneSystems 3:a0863e392562 71 void getData(float *rtn);
AstrodyneSystems 3:a0863e392562 72 void getTemp(float *rtn);
AstrodyneSystems 3:a0863e392562 73
AstrodyneSystems 3:a0863e392562 74 private:
AstrodyneSystems 3:a0863e392562 75 SCIboard_I2C *pI2C;
AstrodyneSystems 3:a0863e392562 76 float gyrSF;
AstrodyneSystems 3:a0863e392562 77 };
AstrodyneSystems 3:a0863e392562 78
AstrodyneSystems 3:a0863e392562 79 #endif