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参数资料
| 型号: | HMC6052 |
| 厂商: | Honeywell Microelectronics & Precision Sensors |
| 文件页数: | 6/6页 |
| 文件大小: | 0K |
| 描述: | IC SENSOR MAGN COMPASS 2AXIS SMD |
| 标准包装: | 1 |
| 系列: | * |
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�HMC6052�
�Toggling� the� DO2� digital� control� line� is� necessary� in� many� applications� to� reduce� the� total� system� current� consumption�
�when� not� taking� magnetic� field� measurements� to� preserve� battery� energy� reserves.� Up� to� 15mA� can� be� drawn� from� the�
�supply� during� the� sensor� circuit’s� operation.� The� supply� current� can� be� effectively� reduced� by� “duty� cycling”� DO2� and�
�making� “snapshot”� measurements� during� the� sensor’s� on� time.�
�For� example,� a� 3.0-volt� lithium� watch� battery� may� have� a� typical� 150mA-hour� energy� capacity� rating.� With� the� reference�
�design� drawing� about� 15mA� continuously,� only� 10� hours� of� operational� time� results.� By� placing� the� microcontroller� and�
�HMC6052� into� sleep� mode� 99%� of� the� time,� the� total� battery� life� extends� to� 1000� hours.� Even� greater� efficiencies� can� be�
�had� if� the� host� microprocessor� only� toggles� on� DO2� for� a� few� milliseconds,� makes� the� analog� to� digital� conversions� of�
�outputs� OUTA� and� OUTB,� and� then� pulls� DO2� high� to� sleep� the� HMC6052� until� the� next� required� measurement� update.�
�The� analog� outputs� of� the� HMC6052� circuit� (OUTA,� OUTB)� are� representative� voltages� proportional� to� the� magnetic� field�
�imposed� on� sensor� bridges� A� and� B.� The� sensor� bridges� have� orthogonal� axis� of� sensitivity� and� create� a� two� dimensional�
�representation� of� the� magnetic� field’s� strength� and� direction.� When� oriented� nearly� level� with� the� ground,� the� outputs� can�
�then� be� used� for� electronic� compassing� by� sensing� the� horizontal� components� of� the� earth’s� magnetic� field.� Using�
�onboard� Analog-to-Digital� Converters� (ADCs)� within� the� host� microprocessor,� the� digital� representations� of� north-pole�
�magnetic� field� direction� can� be� related� to� the� host� platform� (watch,� phone,� PDA,� vehicle,� ship,� aircraft,� etc.).�
�The� outputs� of� the� HMC6052� are� referenced� to� approximately� half� of� the� supply� voltage� applied� across� pins� 11�
�(VSUPPLY)� and� 12� (GND).� With� no� other� errors� accounted� for,� OUTA� (pin� 13)� and� OUTB� (pin� 14)� would� be� close� to� 1.5�
�volts� with� no� magnetic� field� applied� (completely� shielded)� and� a� supply� voltage� of� 3-volts.� If� the� shielding� were� removed�
�and� a� nominal� earth’s� magnetic� field� applied� of� 300� milli-gauss� and� –100� milli-gauss� to� sensor� bridges� A� and� B�
�respectively,� OUTA� would� move� positively� from� 1.5� volts� and� OUTB� would� move� negatively� from� 1.5� volts.� Neglecting�
�offset� errors� and� using� a� nominal� sensitivity� of� 0.5� volts� per� gauss,� OUTA� would� be� at� about� 1.65� volts� and� OUTB� would�
�be� at� about� 1.45� volts.�
�Using� the� above� example� values� of� earth’s� field� excitation,� a� host� microprocessor� with� onboard� 10-bit� ADCs� could� provide�
�1024� increments� (or� counts)� across� the� nominal� zero� to� 3-volt� supply� voltage.� If� count� 512� (about� 1.5� volts)� is� referenced�
�as� the� zero� gauss� point,� the� 1.65� and� 1.45� volt� OUTA� and� OUTB� levels� convert� to� counts� 563� and� 495� respectively.�
�Without� compensating� for� offset� errors� and� calibration� factors,� the� magnetic� vectors� for� outputs� A� and� B� would� be� 51� and�
�–17� counts� with� respect� to� the� zero� field� level� count.� In� electronic� compassing,� the� arctangent� (B/A)� is� computed� by� the�
�microprocessor,� resulting� in� a� heading� of� about� 341� degrees� (19� degrees� west� of� magnetic� north).�
�For� details� on� offset� correction,� calibration,� and� electronic� compass� heading� computation� using� microprocessors,� please�
�visit� www.magneticsensors.com� ,� and� browse� the� technical� papers� and� application� notes� in� the� applications� section.�
�ORDERING� INFORMATION�
�Ordering� Number�
�HMC6052�
�Product�
�Integrated� Compass� Sensor�
�FIND� OUT� MORE�
�For� more� information� on� Honeywell’s� Magnetic� Sensors� visit� us� online� at� www.magneticsensors.com� or� contact� us� at�
�800-323-8295� (763-954-2474� internationally).�
�The� application� circuits� herein� constitute� typical� usage� and� interface� of� Honeywell� product.� Honeywell� does� not� warranty� or� assume� liability� of� customer-�
�designed� circuits� derived� from� this� description� or� depiction.�
�Honeywell� reserves� the� right� to� make� changes� to� improve� reliability,� function� or� design.� Honeywell� does� not� assume� any� liability� arising� out� of� the�
�application� or� use� of� any� product� or� circuit� described� herein;� neither� does� it� convey� any� license� under� its� patent� rights� nor� the� rights� of� others.�
�U.S.� Patents� 4,441,072,� 4,533,872,� 4,569,742,� 4,681,812,� 4,847,584� and� 6,529,114� apply� to� the� technology� described�
�Honeywell�
�12001� Highway� 55�
�Plymouth,� MN� 55441�
�Tel:� 800-323-8295�
�6�
�www.honeywell.com/magneticsensors�
�Form� #900306� Rev� A�
�September� 2006�
�?2006� Honeywell� International� Inc.�
�www.honeywell.com�
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