Difference between revisions of "SUMO/prepare electronics"

Latest revision as of 04:00, 24 February 2014

What you need

Qty	Manufacturer part number	Description	Manufacturer	Digikey part number	Other distributor
Autopilot
1	Umarim Lite v2	Autopilot	Paparazzi
1	BEC cable female	Autopilot power supply
1	BOB-09966	Breakout Board for USB Mini-B	Sparkfun		Sparkfun BOB-09966
Modem
1	(1P)XBP24-PKC-001-UA	Zigbee / 802.15.4 Module 2.4GHz XBee	Digi	XBP24-PKC-001-UA-ND	Mouser 888-XBP24-PKC-001-UA
1	XBP24-AWI-001	Zigbee / 802.15.4 Module 2.4GHz XBee	Digi	XBP24-AWI-001-ND	Mouser 888-XBP24-AWI-001
1	WRL-11373	XBee Explorer Regulated board	Sparkfun		Sparkfun WRL-11373
GPS
1	#387000004 (31135)	NEO-6M GPS Module	Hobbyking		Navilock NL-652ETTL
Sensors
1	SHT75	Humidity Sensor	Sensirion		Farnell #1590514
1	SHT75 adapter	SHT75 breakout board	Paparazzi
1	MLX90614	Infrared Thermometer	Melexis		Sparkfun SEN-09570 FutureElectronics MLX90614ESF-BAA-000-TU
1	MLX90614 adapter	MLX90614 breakout board	Paparazzi		paparazzi-hardware misc/mlx90614_small
1	ETS airspeed	Eagletree airspeed v3	Eagletree
1	PT1000 M222	PT1000 M222 temperature sensor	Heraeus		Conrad #172041
1	TEMOD-I2C-R1	PT1000 converter board	Hygrosens		Conrad #502001
1	Multi I2C	Multi adapter Board	Paparazzi		paparazzi-hardware misc/servo_i2c_multi
Sensors (optional version)
1	BOB-08745	Logic Level Converter	Sparkfun		Sparkfun BOB-08745
1	MS5611	Barometric pressure sensor	Meas Spec		CSG #96 Drotek #44
Logger
1	TWOG v1.0	Logger	Paparazzi
1	BOB-09966	Breakout Board for USB Mini-B	Sparkfun		Sparkfun BOB-09966
1	BOB-00544	Board for microSD Transflash	Sparkfun		Sparkfun BOB-00544
Shrink tube (shrunken / not shrunken)
1	PVC	13mm / 20mm			Muldental Elektronik 64115
1	PVC	24mm / 37mm			Muldental Elektronik 64246
1	PVC	29mm / 45mm			Muldental Elektronik 64347
1	PVC	31mm / 51mm			Muldental Elektronik 64446

Shopping list

Mounting

Use high quality cable, PVC cable gets very stiff in cold temperatures. All parts have to be put into shrink tube to isolate it from any conductive or electrostatic plastic. Some pictures below do not show this tube for better visibility.

Autopilot

Umarim with BEC cable

USB connector for Umarim

RC connector for R6107SP

RC connector for R6008SP

Solder the BEC to the Umarim. Cover the Umarim in shrink tube. Cut free the Molex connector openings. See the Umarim page for detailed info on the pinout.

Umarim Supply (J15) pin	Umarim Supply	BEC male
1	VBAT	+
2	GND
Cable length 9cm
Shrink tube 24mm / 37mm

Solder the cables to the USB breakout board, plug cables in 4-pin Molex connector. Secure cables on USB with hot glue. Cover the USB breakout board in shrink tube.

Umarim USB (J8) pin	Umarim USB	USB mini breakout
1	GND	GND
2	USB+	D+
3	USB-	D-
4	USB_VBUS	VCC
Molex 4pin		solder
Cable length 21cm
Shrink tube 24mm / 37mm

The RC receiver is connected to the autopilot through a standard servo cable connected to a 3-pin Molex connector. The signal wire is marked on the robbe receivers (see pictures).

Umarim RC (J7) pin	Umarim RC	Servo cable color
1	GND	black/brown
2	5V	red
3	PPM in	orange/yellow/white
Molex 3pin		solder
Cable length 41cm

GPS

NEO-6M GPS receiver

Connect the u-blox type GPS receiver to the UART0 of the Umarim. Put the GPS in shrink tube. Attach any HF cable with tape. Secure GPS connector with hot glue if needed.

Umarim UART0 (J9) pin	Umarim UART0	GPS receiver	HK NEO-6M pin
1	GND	GND	1
2	5V	5V	4
3
4	RX0	TX	2
5	TX0	RX	3
Molex 5pin			Molex 4pin
Cable length 18cm
Shrink tube 31mm / 51mm

Modem

XBee pro modem

Solder the cables to the XBee explorer board, plug cables in 5-pin Molex connector. Secure cables on explorer board with hot glue. Plug XBee modem into explorer board and secure with shrink tube.

Recent Sparkfun boards (v14) are equipped with 3.3V to 5V converters. Although the Umarim/LPC2148 should be able to handle 5V it is safe to not use the converters. Remove R5, R6, R7, R8, Q1, and Q2 from the XBee explorer regulated breakout board. Bridge OUT-DOUT and IN-DIN within the transistor footprint.

Umarim UART1 (J10) pin	Umarim UART1	XBee Explorer Regulated
1	GND	GND
2	5V	5V
3
4	RX1	DOUT
5	TX1	DIN
Molex 5pin		solder
Cable length 10cm
Shrink tube 29mm / 45mm

Solder a second wire (not shown in picture) from the XBee to the TWOG so that the data sent by the Umarim can be logged. That means that two wires are to be connected at the XBee DIN pin.

TWOG Download/GPS (J7) pin	TWOG Download/GPS	XBee Explorer Regulated
1
2
3
4
5
6
7	RXD0	DIN
Molex 7pin		solder
Cable length 10cm

SHT75 humidity sensor

SHT75 soldered to adapter board

Use SHT75 adapter board from Paparazzi hardware repository. Solder parts, secure sensor with hot glue to adapter board on the bottom side (not shown in picture).

Umarim AUX (J14) pin	Umarim AUX	SHT75	SHT75 pin	SHT75 adapter pin
1	GND	GND	(3)	1
2
3	+3.3V	VDD	(2)	2
4	AUX1 (P0.13)	DATA	(4)	3
5	AUX2 (P0.15)	SCK	(1)	4
6
7
Molex 7pin				Molex 4pin
Cable length 17cm
no shrink tube

MLX90614 infrared thermometer

MLX90614 soldered to adapter board

Use MLX90614 adapter board from Paparazzi hardware repository. Solder parts, take care of sensor polarity. The I2C address of the MLX90614 needs to be programmed once before it can be used. Connect it as the only sensor to I2C and flash/run it with the IR_MLX_ONE_TIME_CONFIG option set (currently available in the master and campaign2013 branch). See Module/Melexis_MLX90614.

Multi board I2C pin	Multi board I2C	MLX90614	MLX90614 adapter pin
1	GND	Vss	1
2
3	+3.3V	Vdd	3
4	SDA	SDA	4
5	SCL	SCL	5
Molex 5pin			Molex 5pin
Cable length 9cm
Shrink tube 24mm / 37mm

Eagletree Airspeed v3 Sensor

Eagletree Airspeed v3

Extend the sensor cable. Cut off the four outstanding pins.

Multi board I2C pin	Multi board I2C	ETS Airspeed wire colour
1	GND	white
2	+5V	red
3
4	SDA	yellow
5	SCL	brown
Molex 5pin		solder
Cable length 40cm
keep original shrink tube

PT1000 temperature sensor

Hygrosens TEMOD-I2C-R1

Solder the PT1000 sensor (little blue on the picture) to the two correct pads at the edge of the TEMOD-I2C-R1 board, where the pin plugs are. The pads on both side are not connected through. It has to be soldered to the side not carrying the chip. Remove pin header from TEMOD board. Solder 4pin cable to TEMOD, it will be connected to the Umarim through the multi_i2c board below. Fix cables with hot glue. Put some hot glue on the top of teh board, just behind the PT1000. Seal the board with shrink tube.

Caution: The connection is not 1:1

Multi board I2C_5V pin	Multi board I2C_5V	TEMOD-I2C-R1	TEMOD-I2C-R1 pin
1	GND	GND	2
2	+5V	Vdd	1
3	SDA_5V	SDA	3
4	SCL_5V	SCL	4
Molex 4pin			solder
Cable length 18cm
Shrink tube 13mm / 20mm

Multi Board

Multi connector board

Multi board to Umarim

Multi board connections

Use the multi board from the Paparazzi hardware repository to have multiple I2C connections, a MS5611 barometric pressure sensor, a 3.3V to 5V level shifter and servo JR connectors for BEC supply through the motor controller. Drill/burn holes into the shrink tube at the hole locations to attach the board with screws later on.

Connection between Multi Board I2C and Umarim I2C0.

Umarim I2C0 pin	I2C	Multi board I2C pin
1	GND	1
2	+5V	2
3	+3.3V	3
4	SDA	4
5	SCL	5
Molex 5pin		Molex 5pin
Cable length 9cm
Shrink tube 24mm / 37mm

Connection between Multi Board and Umarim for the servo signals.

Multi board Servo pin	Multi board Servo	Umarim Servo
1	GND	GND_SRV5
2
3
4	S2	SRV2
5	S3	SRV3
6	S4	SRV4
7	S5	SRV5
Cable length 7.5cm, 7.5cm, 8cm, 8.5cm, 9cm

The TEMOD/PT1000 temperature sensor gets connected through the 5V I2C connector.

Multi I2C_5V pin	Multi I2C_5V
1	GND
2	+5V
3	SDA
4	SCL

Logger

Umarim with logger

The Umarim autopilot and the TWOG logger communicate through a bi-directional SPI connection. See the TWOG page for detailed info on the logger pinout.

Umarim SPI1 pin	Umarim SPI1	TWOG	TWOG conn.	TWOG name	TWOG pin
1
2
3	SSEL1	SSEL0	USB	BUTTON	6
4	MOSI1	MOSI0	PPM	PPM_IN	3
5	MISO1	MISO0	PPM	SERV_CLK	5
6
7	SCK1	SCK0	ADC1	ADC_3	5
Molex 7pin					various Molex
Cable length 6cm

The TWOG can be supplied through its original power supply connector or through 5V from the Umarim if the switching supply board is removed from the TWOG:

Umarim SRV0 pin	Umarim SRV0	TWOG ADC1	TWOG ADC1 pin
1	GND	GND	1
2	+5V	+5V	2
3
Molex 3pin			Molex 5pin
Cable length 6cm

Solder the cables to the USB breakout board for the TWOG logger, plug cables in 8-pin Molex connector. Secure cables on USB with hot glue. Cover the USB breakout board in shrink tube.

TWOG USB (J9) pin	TWOG USB	USB mini breakout
1	GND	GND
2
3	USB+	D+
4	USB-	D-
5	USB_VBUS	VCC
5
6
7
8
Molex 8pin		solder
Cable length 9cm
Shrink tube 24mm / 37mm

micro SD card adapter

micro SD card adapter in tube

The micro SD card adapter is connected to the TWOGs SPI connector. Wrap the board in shrink tube so that the micro SD card can be plugged/unplugged.

TWOG SPI pin	TWOG SPI	microSD card board	microSD board pin
1	GND	GND	5
2	+3.3V	VCC	3
3	SSEL	CS	1
4	MOSI	DI	2
5	MISO	DO	6
6
7	SCK	SCK	4
Molex 7pin			solder
Cable length 6cm
Shrink tube 24mm / 37mm

@@ Line 19: / Line 19: @@
 |-style="background:WhiteSmoke; color:black"
 |colspan="9" align="left"|''Modem''
+|-
+|1||(1P)XBP24-PKC-001-UA||Zigbee / 802.15.4 Module 2.4GHz XBee||Digi||XBP24-PKC-001-UA-ND||Mouser 888-XBP24-PKC-001-UA
 |-
 |1||XBP24-AWI-001||Zigbee / 802.15.4 Module 2.4GHz XBee||Digi||XBP24-AWI-001-ND||Mouser 888-XBP24-AWI-001
@@ Line 28: / Line 30: @@
 |colspan="9" align="left"|''GPS''
 |-
-|1||NL-652ETTL||GPS receiver u-blox 6||Navilock|| ||Hobbyking #387000004
+|1||#387000004 (31135)||NEO-6M GPS Module||Hobbyking|| ||Navilock NL-652ETTL
 |-
@@ Line 66: / Line 68: @@
 |-
 |1||BOB-00544||Board for microSD Transflash||Sparkfun|| ||Sparkfun BOB-00544
+|-style="background:WhiteSmoke; color:black"
+|colspan="10" align="left"|''Shrink tube (shrunken / not shrunken)''
+|-
+|1||PVC|| 13mm / 20mm || || ||Muldental Elektronik 64115
+|-
+|1||PVC|| 24mm / 37mm || || ||Muldental Elektronik 64246
+|-
+|1||PVC|| 29mm / 45mm || || ||Muldental Elektronik 64347
+|-
+|1||PVC|| 31mm / 51mm || || ||Muldental Elektronik 64446
 |}
 </small>
 Shopping list
 == Mounting ==
@@ Line 80: / Line 93: @@
 [[Image:Umarim_bec.jpg|thumb|right|Umarim with BEC cable]]
 [[Image:Umarim_usb.jpg|thumb|right|USB connector for Umarim]]
+[[Image:R6107sp.jpg|thumb|right|RC connector for R6107SP]]
+[[Image:R6008sp.jpg|thumb|right|RC connector for R6008SP]]
-Solder the BEC to the Umarim. Cover the Umarim in shrink tube. Cut free the Molex connector openings
+Solder the BEC to the Umarim. Cover the Umarim in shrink tube. Cut free the Molex connector openings. See the Umarim [[Umarim_Lite_v2#Pinout|page]] for detailed info on the pinout.
 {|border="1"
@@ Line 132: / Line 147: @@
 |}
+The RC receiver is connected to the autopilot through a standard servo cable connected to a 3-pin Molex connector. The signal wire is marked on the robbe receivers (see pictures).
+{|border="1"
+|-valign="top"
+||'''Umarim RC (J7) pin'''||'''Umarim RC'''||'''Servo cable color'''
+|-
+|1
+|GND
+|black/brown
+|-
+|2
+|5V
+|red
+|-
+|3
+|PPM in
+|orange/yellow/white
+|-
+|''Molex 3pin''
+|
+|''solder''
+|-
+|colspan="3" align="left"|''Cable length 41cm''
+|}
 === GPS ===
-[[Image:Hk_gps_lea6h.jpg|thumb|right|LEA-6H GPS receiver]]
+[[Image:Hk neo gps.jpg|thumb|right|NEO-6M GPS receiver]]
-Connect the u-blox type GPS receiver to the UART0 of the Umarim. Put the GPS in shrink tube. Attach any HF cable with tape. Secure GPS connector with hot glue if needed (see picture).
+Connect the u-blox type GPS receiver to the UART0 of the Umarim. Put the GPS in shrink tube. Attach any HF cable with tape. Secure GPS connector with hot glue if needed.
 {|border="1"
 |-valign="top"
-||'''Umarim UART0 (J9) pin'''||'''Umarim UART0'''||'''GPS receiver'''
+||'''Umarim UART0 (J9) pin'''||'''Umarim UART0'''||'''GPS receiver'''||'''HK NEO-6M pin'''
 |-
 |1
 |GND
 |GND
+|1
 |-
 |2
 |5V
 |5V
+|4
 |-
 |3
+|
 |
 |
@@ Line 157: / Line 200: @@
 |RX0
 |TX
+|2
 |-
 |5
 |TX0
 |RX
+|3
 |-
 |''Molex 5pin''
 |
-|''solder/connector''
+|
+|''Molex 4pin''
 |-
-|colspan="3" align="left"|''Cable length 18cm''
+|colspan="4" align="left"|''Cable length 18cm''
 |-
-|colspan="3" align="left"|''Shrink tube 31mm / 51mm''
+|colspan="4" align="left"|''Shrink tube 31mm / 51mm''
 |}
 === Modem ===
 [[Image:Xbee_cable.jpg|thumb|right|XBee pro modem]]
-Remove R5, R6, R7, R8, Q1, and Q2 from the XBee explorer regulated breakout board. Bridge OUT-DOUT and IN-DIN within the transistor. Solder the cables to the XBee explorer board, plug cables in 5-pin Molex connector. Secure cables on explorer board with hot glue. Plug XBee modem into explorer board and secure with shrink tube.
+Solder the cables to the XBee explorer board, plug cables in 5-pin Molex connector. Secure cables on explorer board with hot glue. Plug XBee modem into explorer board and secure with shrink tube.
+Recent Sparkfun boards (v14) are equipped with 3.3V to 5V converters. Although the Umarim/LPC2148 should be able to handle 5V it is safe to not use the converters. Remove R5, R6, R7, R8, Q1, and Q2 from the XBee explorer regulated breakout board. Bridge OUT-DOUT and IN-DIN within the transistor footprint.
 {|border="1"
@@ Line 251: / Line 298: @@
 |colspan="3" align="left"|''Cable length 10cm''
 |}
 === SHT75 humidity sensor ===
@@ Line 265: / Line 311: @@
 |GND
 |GND
-|3
+|(3)
 |1
 |-
@@ Line 277: / Line 323: @@
 | +3.3V
 |VDD
-|2
+|(2)
 |2
 |-
@@ Line 283: / Line 329: @@
 |AUX1 (P0.13)
 |DATA
-|4
+|(4)
 |3
 |-
@@ Line 289: / Line 335: @@
 |AUX2 (P0.15)
 |SCK
-|1
+|(1)
 |4
 |-
@@ Line 310: / Line 356: @@
 |''Molex 4pin''
 |-
-|colspan="5" align="left"|''Cable length 11cm''
+|colspan="5" align="left"|''Cable length 17cm''
 |-
 |colspan="5" align="left"|''no shrink tube''
 |}
 === MLX90614 infrared thermometer ===
 [[Image:Mlx90614_bot.jpg‎|thumb|right|MLX90614 soldered to adapter board]]
-Use MLX90614 adapter board from Paparazzi hardware [http://github.com/paparazzi/paparazzi-hardware/tree/master/misc/mlx90614_small repository]. Solder parts, take care of sensor polarity. The I2C address of the MLX90614 needs to be programmed once before it can be used. Connect it as the only sensor to I2C and flash/run it with the IR_MLX_ONE_TIME CONFIG option set (currently available in the master branch only). See [http://paparazzi.enac.fr/wiki/Module/Melexis_MLX90614#One-time_configuration Module/Melexis_MLX90614].
+Use MLX90614 adapter board from Paparazzi hardware [http://github.com/paparazzi/paparazzi-hardware/tree/master/misc/mlx90614_small repository]. Solder parts, take care of sensor polarity. The I2C address of the MLX90614 needs to be programmed once before it can be used. Connect it as the only sensor to I2C and flash/run it with the IR_MLX_ONE_TIME_CONFIG option set (currently available in the master and campaign2013 branch). See [http://paparazzi.enac.fr/wiki/Module/Melexis_MLX90614#One-time_configuration Module/Melexis_MLX90614].
 {|border="1"
 |-valign="top"
-||'''Umarim I2C pin'''||'''Umarim I2C'''||'''MLX90614'''||'''MLX90614 adapter pin'''
+||'''Multi board I2C pin'''||'''Multi board I2C'''||'''MLX90614'''||'''MLX90614 adapter pin'''
 |-
 |1
@@ Line 367: / Line 412: @@
 {|border="1"
 |-valign="top"
-||'''Umarim I2C pin'''||'''Umarim I2C'''||'''ETS Airspeed wire colour'''
+||'''Multi board I2C pin'''||'''Multi board I2C'''||'''ETS Airspeed wire colour'''
 |-
 |1
@@ Line 403: / Line 448: @@
 Solder the PT1000 sensor (little blue on the picture) to the two correct pads at the edge of the TEMOD-I2C-R1 board, where the pin plugs are. The pads on both side are not connected through. It has to be soldered to the side '''not''' carrying the chip. Remove pin header from TEMOD board. Solder 4pin cable to TEMOD, it will be connected to the Umarim through the multi_i2c board below. Fix cables with hot glue. Put some hot glue on the top of teh board, just behind the PT1000. Seal the board with shrink tube.
+'''Caution: The connection is not 1:1'''
 {|border="1"
 |-valign="top"
-||'''Multi board I2C pin'''||'''Multi board I2C'''||'''TEMOD-I2C-R1'''||'''TEMOD-I2C-R1 pin'''
+||'''Multi board I2C_5V pin'''||'''Multi board I2C_5V'''||'''TEMOD-I2C-R1'''||'''TEMOD-I2C-R1 pin'''
 |-
 |1
@@ Line 437: / Line 484: @@
 |colspan="5" align="left"|''Shrink tube 13mm / 20mm''
 |}
 === Multi Board ===
 [[Image:Multi_i2c_ms5611.jpg‎‎|thumb|right|Multi connector board]]
+[[Image:Multi_board_umarim.jpg|thumb|right|Multi board to Umarim]]
+[[Image:Multi_wiring.jpg|thumb|right|Multi board connections]]
 Use the multi board from the Paparazzi hardware [http://github.com/paparazzi/paparazzi-hardware/tree/master/misc/servo_i2c_multi repository] to have multiple I2C connections, a MS5611 barometric pressure sensor, a 3.3V to 5V level shifter and servo JR connectors for BEC supply through the motor controller. Drill/burn holes into the shrink tube at the hole locations to attach the board with screws later on.
+Connection between Multi Board I2C and Umarim I2C0.
 {|border="1"
 |-valign="top"
-||'''Umarim I2C pin'''||'''I2C'''||'''Multi board I2C pin'''
+||'''Umarim I2C0 pin'''||'''I2C'''||'''Multi board I2C pin'''
 |-
 |1
@@ Line 478: / Line 528: @@
-{|border="1"
+Connection between Multi Board and Umarim for the servo signals.
-|-valign="top"
-||'''Multi I2C_5V pin'''||'''Multi I2C_5V'''
-|-
-|1
-|GND
-|-
-|2
-| +5V
-|-
-|3
-|SDA
-|-
-|4
-|SCL
-|}
 {|border="1"
@@ Line 528: / Line 562: @@
 |SRV5
 |-
-|colspan="3" align="left"|''Cable length 7.5cm, 8cm, 8.5cm, 9cm''
+|colspan="3" align="left"|''Cable length 7.5cm, 7.5cm, 8cm, 8.5cm, 9cm''
 |}
+The TEMOD/PT1000 temperature sensor gets connected through the 5V I2C connector.
+{|border="1"
+|-valign="top"
+||'''Multi I2C_5V pin'''||'''Multi I2C_5V'''
+|-
+|1
+|GND
+|-
+|2
+| +5V
+|-
+|3
+|SDA
+|-
+|4
+|SCL
+|}
 === Logger ===
 [[Image:Umarim_logger_spi.jpg|thumb|right|Umarim with logger]]
-The Umarim autopilot and the TWOG logger communicate through a bi-directional SPI connection.
+The Umarim autopilot and the TWOG logger communicate through a bi-directional SPI connection. See the TWOG [[TWOG/v1.0#Pinout|page]] for detailed info on the logger pinout.
 {|border="1"
@@ Line 684: / Line 737: @@
 [[Image:Sd_card_twog.jpg|thumb|right|micro SD card adapter]]
+[[Image:Sd_card_twog_shrink.jpg|thumb|right|micro SD card adapter in tube]]
-The micro SD card adapter is connected to the TWOGs SPI connector. Wrap the board in shrink tube and cut a hole so that the micro SD can still be plugged/unplugged.
+The micro SD card adapter is connected to the TWOGs SPI connector. Wrap the board in shrink tube so that the micro SD card can be plugged/unplugged.
 {|border="1"