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Memsic AHRS380ZA-200, User Manual

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Memsic AHRS380ZA-200 User Manual Download Page 24

DMU380ZA Series 

User’s Manual

 

 

________________________________________________________________________

 

Doc# 7430-3810 Rev. 02 

 

 

 

 Page 16 

 

If a user wants to reset the algorithm or re-enter the initialization phase, sending the 
algorithm reset command, ‘AR’, will force the algorithm into the reset phase. 

The VG380ZA outputs digital measurement data over the UART port at a selectable 
fixed rate (100, 50, 25, 20, 10, 5 or 2 Hz) or on as requested basis using the GP, ‘Get 
Packet’ command. In addition to the scaled sensor packets described in the IMU380ZA 
section, the VG380ZA has additional measurement output packets including the default 
‘A2’ Angle Packet which outputs the roll angle, pitch angle, and digital IMU data. ‘N0’ 
and ‘N1’ packets are also available for use with an external GPS receiver. See Section 6 
and 7 of the manual for full packet descriptions.  All data is also available on the SPI 
output port registers.  Please refer to section 5 for a complete description of the SPI port 
functionality. 

3.3.1

 

VG380ZA Advanced Settings 

In addition to the configurable baud rate, packet rate, axis orientation, and sensor low-
pass filter settings, the VG380ZA provides additional advanced settings which are 
selectable for tailoring the VG380ZA to a specific application requirements. These 
VG380ZA advanced settings are shown in Table 8 below: 

 

Table 8 VG380ZA Series Advanced Settings 

Setting 

Default 

Comments 

Baud Rate 

38,400 
baud 

9600, 19200, 57600 also available 

Packet Type 

A2 

S1, N0, N1 also available 

Packet Rate 

25Hz 

This setting sets the rate at which selected Packet Type, packets are output. If polled 
mode is desired, then select Quiet.  If Quiet is selected, the VG380ZA will only send 

measurement packets in response to GP commands. 

Orientation 

See 
Figure 6 
and 

Figure 7. 

To configure the axis orientation, select the desired measurement for each axes: NAV-
VIEW will show the corresponding image of the VG380ZA, so it easy to visualize the 
mode of operation. See Section 8.4 Orientation Field settings for the twenty four possible 

orientation settings. The default setting points the connector AFT. 

Filter 
Settings (5, 

10, 20, 50 Hz) 

20 Hz 

The low pass filters are set to a default of 5Hz for the accelerometers, and 20 Hz for the 
angular rate sensors. There is one filter setting for all three angular rate sensors. There 
are two settings for the accelerometers, one for the X and Y axes, and a separate setting 
for the Z axis. The reason for a separate setting in the Z-axis is that in many installations, 
the Z-axis vibration level is much higher than in the X and Y axes, and it can prove helpful 

to filter the Z-axis at a lower cutoff than the X and Y axes.  

Freely 
Integrate 

OFF 

The Freely Integrate setting allows a user to turn the VG380ZA into a ‘free gyro’. In free 
gyro mode, the roll, pitch and yaw are computed exclusively from angular rate with no 
kalman filter based corrections of roll, pitch, or yaw. When turned on, there is no coupling 
of acceleration based signals into the roll and pitch. As a result, the roll, pitch, and yaw 
outputs will drift roughly linearly with time due to sensor bias.  For best performance, the 
Freely Integrate mode should be used after the algorithm has initialized. This allows the 
Kalman Filter to estimate the roll and pitch rate sensor bias prior to entering the free gyro 

mode. Upon exiting the ‘free gyro’ mode (OFF), one of two behaviors will occur 

(1)

 

If the VG380ZA has been in freely integrate mode for less than sixty seconds, 

the algorithm will resume operation at normal gain settings 

(2)

 

If the VG380ZA has been in freely integrate mode for greater than sixty 
seconds, the algorithm will force a reset and reinitialize with high gains 

automatically.  

Restart On 
Over Range 

OFF 

This setting forces an algorithm reset when a sensor over range occurs i.e., a rotational 
rate on any of the three axes exceeds the maximum range. The default setting is OFF for 
the VG380ZA. Algorithm reset returns the VG380ZA to a high gain state, where the 
VG380ZA rapidly estimates the gyro bias and uses the accelerometer feedback heavily. 
This setting is recommended when the source of over-range is likely to be sustained and 
potentially much greater than the rate sensor operating limit. Large and sustained angular 

Summary of Contents for AHRS380ZA-200

Page 1: ...DMU380ZA Series USER MANUAL Document Part Number 7430 3810 02 MEMSIC Inc 1759 McCarthy Blvd Milpitas CA 95035 Tel 408 964 9700 Fax 408 854 7702 email infoca memsic com website www memsic com...

Page 2: ...siles rockets and or UAV s of 300km or greater range or any other activity prohibited by the Export Administration Regulations is expressly prohibited without the written consent of MEMSIC and without...

Page 3: ...dvanced Settings 12 IMU380ZA Theory of Operation 12 3 2 3 2 1 IMU380ZA Advanced Settings 13 3 2 2 IMU380ZA Built In Test 14 VG380ZA Theory of Operation 14 3 3 3 3 1 VG380ZA Advanced Settings 16 4 3 2...

Page 4: ...7 4 Magnetic Alignment 43 Suggested Operation 44 5 8 6 DMU380 UART Port Interface Definition 47 General Settings 47 6 1 Number Formats 47 6 2 Packet Format 48 6 3 6 3 1 Packet Header 48 6 3 2 Packet...

Page 5: ...ced UART Port Commands 62 Configuration Fields 62 8 1 Continuous Packet Type Field 62 8 2 Digital Filter Settings 63 8 3 Orientation Field 63 8 4 User Behavior Switches 65 8 5 Hard and Soft Iron Value...

Page 6: ...ormation 79 10 3 1 Authorization 79 10 3 2 Identification and Protection 79 10 3 3 Sealing the Container 80 10 3 4 Marking 80 10 3 5 Return Shipping Address 80 Appendix A Installation and Operation of...

Page 7: ...DMU380ZA Series User s Manual Doc 7430 3810 Rev 02 Page v Appendix C Sample Packet Parser Code 95 Overview 95 Code listing 96 Appendix D Sample Packet Decoding 102...

Page 8: ...e given throughout the manual to help the reader understand the terminology IMPORTANT This symbol defines items that have significant meaning to the user WARNING The user should pay particular attenti...

Page 9: ...nd features of your DMU380ZA Series system For example if you have purchased an INS380ZA you should read not only the section on the INS380ZA but also familiarize yourself with the theory of operation...

Page 10: ...MEMS angular rate sensing and three axes of MEMS linear acceleration sensing These sensors are based on rugged field proven silicon bulk micromachining technology Each sensor within the cluster is ind...

Page 11: ...02 Page 3 choice is user controlled by grounding the appropriate pin on the connector The DMU380 low level UART output data port is supported by MEMSIC s NAV VIEW 3 X a powerful PC based operating to...

Page 12: ...pin definitions are defined in Table 3 Table 3 DMU380ZA Interface Connector Pin Definition Pin Signal 1 Reserved factory use only 2 Synchronization Input 1KHz Pulse used to synchronize SPI Com 1PPS 3...

Page 13: ...ontrols apply only to data being output over the UART port and the SPI output controls apply only to data being output over the SPI port 2 1 4 External GPS Aiding VG380ZA AHRS380ZA and INS380ZA The VG...

Page 14: ...om an external GPS receiver then Pin 2 can be used as a sync pulse to force synchronization of sensor data collection to a 1 KHz rising edge signal for output over the SPI port 2 1 4 3 External GPS Re...

Page 15: ..._____________________________________________________________________ Doc 7430 3810 Rev 02 Page 7 Figure 2 DMU380ZA Outline Drawing NOTES UNLESS OTHERWISE STATED 1 MATING CONNECTOR SAMTEC CLM 110 02 2...

Page 16: ...nsors are based on rugged field proven silicon bulk micromachining technology Each sensor within the cluster is individually factory calibrated using MEMSIC s automated manufacturing process Sensor er...

Page 17: ...oducts Built In Test and Status data is available in the measurement packet or via the special Status Packet T0 As shown in the software block diagram the DMU380ZA Series has a unit setting and profil...

Page 18: ...t correction for the attitude i e roll and pitch only is a 3 axis accelerometer This is the default configuration for the VG product X Y Z Body Accelerometers 6 DOF Sensor Cluster Sensor Calibration A...

Page 19: ...e 6 and Figure 7 As with many elements of the DMU380ZA Series the coordinate system is configurable with either NAV VIEW or by sending the appropriate serial commands over the UART port These configur...

Page 20: ...or a positive rotation around the z axis turn right The angles are defined as standard Euler angles using a 3 2 1 system To rotate from the body frame to an earth level frame roll first then pitch and...

Page 21: ...I port please see section 5 Table 6 IMU380ZA Advanced Settings Setting Default Comments Baud Rate 38 400 baud 9600 19200 57600 also available Packet Type S0 S1 also available Packet Rate 100Hz This se...

Page 22: ...IT Status Definition BITstatus Field Bits Meaning Category masterFail 0 0 normal 1 fatal error has occurred BIT HardwareError 1 0 normal 1 internal hardware error BIT comError 2 0 normal 1 communicati...

Page 23: ...e measurement for the EKF when the VG380ZA is in quasi static motion to correct roll and pitch angle drift and to estimate the X and Y gyro rate bias Because the gravity vector has no horizontal compo...

Page 24: ...possible orientation settings The default setting points the connector AFT Filter Settings 5 10 20 50 Hz 20 Hz The low pass filters are set to a default of 5Hz for the accelerometers and 20 Hz for th...

Page 25: ...ds a given Turnswitch threshold the feedback gains from the accelerometer signals for attitude correction are reduced because they are likely corrupted BIT See 4 3 2 4 3 2 VG380ZA Built In Test As wit...

Page 26: ...VG380ZA the dynamic roll and pitch measurements are stabilized using the accelerometers as a long term gravity reference Unlike the AHRS400 and earlier MEMSIC AHRS Series products the AHRS380ZA can be...

Page 27: ...alization phase lasts approximately 60 seconds and the initialization phase can be monitored in the softwareStatus BIT transmitted by default in each measurement packet After the initialization phase...

Page 28: ...t When the AHRS380ZA has not been properly calibrated this softwareError bit will be set to fail high The current release of this software does not currently implement this feature however In future r...

Page 29: ...ting for all three accelerometer sensors The reason for filtering the accelerometers is that in many installations the vibration level can be high and it can prove helpful to filter accelerometers Fre...

Page 30: ...d rate sensor fall below 3 deg sec to begin initialization The system will then attempt a normal algorithm start Dynamic Motion ON The default setting is ON for the AHRS380ZA Turning off the dynamic m...

Page 31: ...for the AHRS380ZA is sufficient For users who wish to have additional visibility to when the AHRS380ZA EFK algorithm estimates that the AHRS380ZA is turning about its Z or Yaw axis the softwareStatus...

Page 32: ...on will drift due to internal clock drift The status of GPS signal acquisition can be monitored from the hardwareStatus BIT as discussed in Section 3 5 3 INS380ZA Built in Test From a cold start it ty...

Page 33: ...below Table 12 INS380ZA Series Advanced Settings Setting Default Comments Baud Rate 38 400 baud 9600 19200 57600 also available Packet Type N1 S0 S1 A1 A2 N0 also available Packet Rate 25 Hz This set...

Page 34: ...turned from OFF to ON the INS380ZA will reinitialize the yaw heading angle with the compass reading provided from the magnetic field sensor readings Restart On Over Range OFF This setting forces an a...

Page 35: ...ation that can be modified by the user This flag is asserted as a result of any asserted alert signals which have been enabled See Advanced Settings for details for configuring the masterStatus flags...

Page 36: ...s Manual ________________________________________________________________________ Doc 7430 3810 Rev 02 Page 28 softwareStatus and hardwareStatus See Section 9 of the user s manual for a description o...

Page 37: ...tions Table 14 Recommended Advanced Settings for Fixed Wing Aircraft Recommended Product AHRS380ZA or INS380ZA Recommended Settings Dynamic Condition Pre launch or known straight and level un accelera...

Page 38: ...cal mechanism of rotors generating the aerodynamic forces and moments Table 15 provides the recommended advanced settings for two different dynamic conditions Table 15 Recommended Advanced Settings fo...

Page 39: ...s XY Filter Accel 5 Hz 5 Hz Z Filter Accel 5 Hz 5 Hz Filter Rate Sensor 20 Hz 20 Hz When not in distorted magnetic environment Water Vehicle 4 5 Water vehicle is a craft or vessel designed to float o...

Page 40: ...s transmitted from its landing gear Climb is the phase of a flight after take off consisting of getting the aircraft to the desired flight level altitude More generally the term climb means increasing...

Page 41: ...CCEL R 0x0A N A X Axis Accelerometer Output Y_ACCEL R 0x0C Y Axis Accelerometer Output Z_ACCEL R 0x0E Z Axis Accelerometer Output X_MAG R 0x10 N A X Axis Magnetometer Output Y_MAG R 0x12 Y Axis Magnet...

Page 42: ...scale factor ANG_SOFT_IRON R 0x4E 0x0000 Soft iron angle MAG_ALIGN R W 0x50 0x51 N A See Table 29 Magnetic alignment control and status MANUF_CODE R 0x52 0x1310 Manufacturing code indicating year and...

Page 43: ...A consist of either Sixteen zero bits 0x0000 to complete the read of a single register The address of another register followed by a zero byte This permits back to back reads of data registers Single...

Page 44: ...st mode the DMU380ZA returns predefined blocks of data in single groups referred to as data packets without the need to send multiple read commands These groups vary from eight to nineteen words in le...

Page 45: ...n burst mode subsequent reads writes will be out of sync with the SPI transfer cycle of the DMU380ZA Figure 11 Multiple Register Read via Burst Mode Operational notes 1 When combining polled and burst...

Page 46: ...RATE_TEMP 0x16 Rate sensor temperature information twos complement format conversion Tout C Vout 0 07311 C LSB 31 0 C BOARD_TEMP 0x18 System temperature information twos complement format conversion T...

Page 47: ...Axis self test bit 0 Pass 1 Fail 13 Accelerometer X Axis self test bit 0 Pass 1 Fail 12 Rate Sensor Z Axis self test bit 0 Pass 1 Fail 11 Rate Sensor Y Axis self test bit 0 Pass 1 Fail 10 Rate Sensor...

Page 48: ...with the value to be written to the register e g 0xB504 see Table 25 for a description of the self test register Figure 12 illustrates the sensor self test command sent over SPI Figure 12 Single Regis...

Page 49: ...temporary bias to determine if they are responding correctly Once self test completes the self test bit bit 10 is reset to indicate that the test is finished Results of the self test are store in the...

Page 50: ...ate sensor scaling and digital low pass filter configuration are combined into a single 16 bit register at memory location 0x38 individual bits are assigned according to Table 27 Note these settings a...

Page 51: ...sec 400 LSB sec 125 0 sec 200 LSB sec 250 0 sec 100 LSB sec The digital low pass filter register sets the type and cutoff frequency of the filter applied to the scaled sensor data The default setting...

Page 52: ...o the EEPROM The Kalman filter algorithm is reset to stabilization mode It remains in this state for five seconds to allow the user to bring the system to rest while the initialization process complet...

Page 53: ...cription Value Units fCLK SPI clock frequency 2 max MHz tDELAY Time between successive clock cycles Figure 16 9 min usec tSU NSS nSS setup time prior to clocking data Figure 17 133 nsec th NSS nSS hol...

Page 54: ..._________________________________________________________________ Doc 7430 3810 Rev 02 Page 46 Figure 17 SPI Timing Diagram bit 13 MSB bit 14 bit 1 LSB LSB bit 1 MSB bit 13 bit 14 tSU NSS th NSS tV MI...

Page 55: ...de available under certain conditions Please contact your MEMSIC representative for more information General Settings 6 1 The serial port settings are RS232 with 1 start bit 8 data bits no parity bit...

Page 56: ...ications with the DMU380ZA Series unit require the 2 byte CRC Note A DMU380ZA Series unit will also respond to a ping command using the full packet formation with payload 0 and correctly calculated CR...

Page 57: ...al value See Appendix C for sample code that implements the 16 bit CRC algorithm 6 3 6 Messaging Overview Table 33 summarizes the messages available by DMU380ZA Series model Packet types are assigned...

Page 58: ...5330 30 Scaled Sensor 0 Data Output Message IMU380ZA 209 409 AHRS INS S1 0x5331 24 Scaled Sensor 1 Data Output Message ALL A1 0x4131 32 Angle 1 Data Output Message AHRS INS A2 0x4132 30 Angle 2 Data O...

Page 59: ...g command 7 1 3 Echo Command Echo CH 0x4348 Preamble Packet Type Length Payload Termination 0x5555 0x4348 N echo payload CRC U2 The echo command allows testing and verification of the communication li...

Page 60: ...Packet Type Length Termination 0x5555 0x4152 0x00 CRC U2 The unit will send this packet in response to an algorithm reset command 7 2 4 Calibrate Command Calibrate WC 0x5743 Preamble Packet Type Leng...

Page 61: ...55 0x5743 0x02 WC payload CRC U2 The unit will send this packet in response to a calibrate request if the procedure can be performed or initiated WC Payload Contents Byte Offset Name Format Scaling Un...

Page 62: ...String 8 bit Ascii values followed by the firmware part number string delimited by a whitespace ID Payload Contents Byte Offset Name Format Scaling Units Description 0 serialNumber U4 Unit serial numb...

Page 63: ...mentalBIT U2 Hardware Environmental BIT Field 8 comBIT U2 communication BIT Field 10 comSerialABIT U2 Communication Serial A BIT Field 12 comSerialBBIT U2 Communication Serial B BIT Field 14 softwareB...

Page 64: ...22 zRateTemp I2 200 2 16 deg C Z rate temperature 24 boardTemp I2 200 2 16 deg C CPU board temperature 26 GPSITOW U2 truncated ms GPS ITOW lower 2 bytes Not Implemented 28 BITstatus U2 Master BIT and...

Page 65: ...Data Packet 1 Default AHRS Data Angle Data A1 0x4131 Preamble Packet Type Length Payload Termination 0x5555 0x4131 0x20 A1 payload CRC U2 This packet contains angle data and selected sensor data scale...

Page 66: ...20 2 16 g Z accelerometer 18 xMag I2 20 2 16 Gauss X magnetometer 20 yMag I2 20 2 16 Gauss Y magnetometer 22 zMag I2 20 2 16 Gauss Z magnetometer 24 xRateTemp I2 200 2 16 Deg C X rate temperature 26 t...

Page 67: ...2 16 deg C Y rate temperature 22 zRateTemp I2 200 2 16 deg C Z rate temperature 24 timeITOW U4 1 ms DMU ITOW sync to GPS Not Implemented 28 BITstatus U2 Master BIT and Status 7 4 5 Nav Data Packet 0...

Page 68: ...GPS altitude 100 16284 28 GPSITOW U2 truncated ms GPS ITOW lower 2 bytes Not Implemented 30 BITstatus U2 Master BIT and Status 7 4 6 Nav Data Packet 1 Default INS Data Nav Data N1 0x4E31 Preamble Pac...

Page 69: ...orrected I2 7 pi 2 16 1260 2 16 rad s sec Z angular rate corrected 12 xAccel I2 20 2 16 g X accelerometer 14 yAccel I2 20 2 16 g Y accelerometer 16 zAccel I2 20 2 16 g Z accelerometer 18 nVel I2 512 2...

Page 70: ...e set or written with valid data from Table 34 below Table 34 Configuration Fields configuration fields field ID Valid Values description Packet rate divider 0x0001 0 1 2 5 10 20 25 50 quiet 100Hz 50H...

Page 71: ...U380 family model The default factory axis setting for the IMU380ZA 200 orientation field is Uy Ux Uz which defines the connector pointing in the Z direction and the X direction going from the connect...

Page 72: ...Ux 0x00D3 Uy Uz Ux 0x00DA Uy Uz Ux 0x0111 Ux Uz Uy 0x0118 Ux Uz Uy 0x0124 Uz Ux Uy 0x012D Uz Ux Uy 0x0150 Ux Uz Uy 0x0159 Ux Uz Uy 0x0165 Uz Ux Uy 0x016C Uz Ux Uy The default factory axis setting for...

Page 73: ...See Table 39 Table 39 DMU380 Magnetic Alignment Parameters Field Name Field ID Format Scaling Units X Hard Iron Bias 0x0009 I2 2 2 16 Gauss Y Hard Iron Bias 0x000A I2 2 2 16 Gauss Soft Iron Scale Rat...

Page 74: ..._____________________________________________________________ Doc 7430 3810 Rev 02 Page 66 Table 40 DMU380 Heading Track Offset Field Name Field ID Format Scaling Units Heading Track Offset 0x000C I2...

Page 75: ...rror response Note that both a write fields and an error response may be received as a result of a write fields command Attempts to write a field with an invalid value is one way to generate an error...

Page 76: ...e Note that both a set fields and an error response may be received as a result of one set fields command Attempts to set a field with an invalid value is one way to generate an error response A table...

Page 77: ...d fields command RF Payload Contents Byte Offset Name Format Scaling Units Description 0 numFields U1 The number of fields to read 1 field0 U2 The first field ID to read 3 field1 U2 The second field I...

Page 78: ...eceived as the result of a get fields command GF Payload Contents Byte Offset Name Format Scaling Units Description 0 numFields U1 The number of fields to get 1 field0 U2 The first field ID to get 3 f...

Page 79: ...re Soft errors are those which must be triggered multiple times within a specified time window to be considered fatal Soft errors are managed using a digital high pass error counter with a trigger thr...

Page 80: ...orithmBIT Field initialization overRange missedIntegrationStep dataError softwareDataBIT Field calibrationCRCError magAlignOutOfBounds masterStatus hardwareStatus hardwareStatus Field unlocked1PPS ena...

Page 81: ...ntermediate signals that are used to determine when the masterStatus flag is asserted hardwareStatus sensorStatus comStatus and softwareStatus masterStatus is the logical OR of these intermediate sign...

Page 82: ...Category inpPower 0 0 normal 1 out of bounds Soft inpCurrent 1 0 normal 1 out of bounds Soft inpVoltage 2 0 normal 1 out of bounds Soft fiveVolt 3 0 normal 1 out of bounds Soft threeVolt 4 0 normal 1...

Page 83: ...1 error Soft Reserved 5 15 N A comSerialBBIT Field 9 8 The comSerialBBIT field See Table 47 contains flags that indicate low level errors with external serial port B the aiding serial port The serial...

Page 84: ...wise OR of this softwareDataBIT field Table 50 DMU380 Software Data BIT Field SoftwareDataBIT Field Bits Meaning Category calibrationCRCError 0 0 normal 1 incorrect CRC on calibration EEPROM data or d...

Page 85: ...hat allows the user to select items of interest that will logically flow up to the masterStatus flag Table 53 DMU380 Software Status Field softwareStatus Field Bits Meaning algorithmInit 0 0 normal 1...

Page 86: ...see BIT and status definitions This field allows the user to determine which low level comStatus field signals will flag the comStatus and masterStatus flags in the BITstatus field Any asserted bits i...

Page 87: ...uipment please contact MEMSIC to obtain a Returned Material Authorization number RMA Be ready to provide the following information when requesting a RMA Name Address Telephone Fax Email Equipment Mode...

Page 88: ...he container 10 3 4 Marking Please write the words FRAGILE DELICATE INSTRUMENT in several places on the outside of the shipping container s In all correspondence please refer to the equipment by the m...

Page 89: ...the CD ROM drive 2 Locate the NAV VIEW folder Double click on the setup exe file 3 Follow the setup wizard instructions You will install NAV VIEW and NET 2 0 framework Connections The DMU380ZA Series...

Page 90: ...Series product and the computer check the power supply and verify that the COM port is not occupied by another device 4 Under the View menu you have several choices of data presentation Graph display...

Page 91: ...log file 1 To playback data select Playback Mode from the Data Source drop down menu at the top 2 Selecting Playback mode will open a text prompt which will allow users to specify the location of the...

Page 92: ...Compass View If the DMU380ZA Series product you have connected is capable of providing heading and angle information see Table 2 NAV VIEW can provide a compass and a simulated artificial horizon view...

Page 93: ...on This button simply provides users with the currently set configuration of the unit and displays the values in the left column of boxes There are three tabs within the Unit Configuration menu Genera...

Page 94: ...Advanced tab at the top of the Unit Configuration window WARNING Users are strongly encouraged to read and thoroughly understand the consequences of altering the settings in the Advanced tab before ma...

Page 95: ...uration window is Bit Configuration See Figure 26 This tab allows the users to alter the logic of individual status flags that affect the masterStatus flag in the master BITstatus field available in m...

Page 96: ...Iron Overview The AHRS and INS380ZA products use magnetic sensors to compute heading Ideally the magnetic sensors would be measuring only earth s magnetic field to compute the heading angle In the rea...

Page 97: ...iron environment in your system using a two dimensional algorithm The AHRS and INS380ZA products will calculate the hard iron magnetic fields and soft iron corrections and store these as calibration c...

Page 98: ...age to stop 5 Once you have completed your rotation you will be given data concerning the calibration accuracy The X and Y offset values indicate how far the magnetic field has been offset due to hard...

Page 99: ...gauss thus 2 5 gauss is the recommended maximum hardiron that should be tolerated for the installation and still provide ample resolution and headroom to properly determine the earth s magnetic field...

Page 100: ...DMU380ZA Series User s Manual ________________________________________________________________________ Doc 7430 3810 Rev 02 Page 92 Figure 29 Read Configuration...

Page 101: ...ing Description Format Example GPGGA string GPGGA Message ID GGA protocol header hhmmss ss hhmmss sss 092725 00 UTC Time Current time Latitude dddmm mmmm 4717 11399 Latitude Degrees minutes N characte...

Page 102: ...ual ________________________________________________________________________ Doc 7430 3810 Rev 02 Page 94 CR LF End of message Fix Status Description 0 No fix Invalid 1 Standard GPS 2D 3D 2 Differenti...

Page 103: ...trieving 2 bytes from the queue without popping peekByte for retrieving a byte from the queue without popping Pop discard item s from queue Size returns number of items in queue Empty return 1 if queu...

Page 104: ...acket unsigned short packet_type char length unsigned short crc char data 256 XBOW_PACKET QUEUE_TYPE circ_buf FUNCTION process_xbow_packet looks for packets in a queue ARGUMENTS queue_ptr is pointer t...

Page 105: ...hrough minimum length packet if Size queue_ptr 7 return 0 get data length 5th byte of packet dataLength peekByte queue_ptr 4 make sure we can read through entire packet if Size queue_ptr 7 dataLength...

Page 106: ...o queue holding area to be CRCed startIndex is offset into buffer where to begin CRC calculation num is offset into buffer where to stop CRC calculation RETURNS 2 byte CRC unsigned short calcCRC QUEUE...

Page 107: ...val 0 if queue_ptr count MAXQUEUE retval 0 queue is full else queue_ptr count queue_ptr rear queue_ptr rear 1 MAXQUEUE queue_ptr entry queue_ptr rear item retval 1 return retval FUNCTION DeleteQeue re...

Page 108: ...firstIndex return byte FUNCTION peekWord returns 2 byte word from buffer without popping ARGUMENTS queue_ptr is pointer to the queue to return word from index is offset into buffer to which word to r...

Page 109: ...FUNCTION Size ARGUMENTS queue_ptr is pointer to the queue RETURNS return the number of items in the queue int Size QUEUE_TYPE queue_ptr return queue_ptr count FUNCTION Empty ARGUMENTS queue_ptr is poi...

Page 110: ...eries User s Manual ________________________________________________________________________ Doc 7430 3810 Rev 02 Page 102 Appendix D Sample Packet Decoding Figure 30 Example payload from Angle Data P...

Page 111: ...DMU380ZA Series User s Manual ________________________________________________________________________ Doc 7430 3810 Rev 02 Page 103 Figure 31 Example payload from Scaled Data Packet 1 S1...

Page 112: ...DMU380ZA Series User s Manual ________________________________________________________________________ Doc 7430 3810 Rev 02 Page 104 Figure 32 Example payload from Nav Data Packet 1 N1...

Page 113: ...ual ________________________________________________________________________ Doc 7430 3810 Rev 02 Page 105 1759 McCarthy Blvd Milpitas CA 95035 Phone 408 964 9700 Fax 408 854 7702 Website www memsic c...

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