MR0A08BCMA35R - Everspin Technologies

MR0A08B

128K x 8 MRAM

FEATURES

• 3.3Voltpowersupply

• Fast35nsread/writecycle

• SRAMcompatibletiming

• Nativenon-volatility

• Unlimitedread&writeendurance

• Dataalwaysnon-volatilefor>20-yearsattemperature

• Commercialandindustrialtemperatures

• RoHS-CompliantTSOP2,BGAandSOICpackages

BENEFITS

• OnememoryreplacesFLASH,SRAM,EEPROMandBBSRAMin

systemforsimpler,moreecientdesign

• Improvesreliabilitybyreplacingbattery-backedSRAM

INTRODUCTION

TheMR0A08Bisa1,048,576-bitmagnetoresistiverandomaccess

memory(MRAM)deviceorganizedas131,072wordsof8bits.The

MR0A08BoersSRAMcompatible35nsread/writetimingwithun-

limitedendurance.

Dataisalwaysnon-volatileforgreaterthan20-years.Dataisautomaticallyprotectedonpowerlossby

low-voltageinhibitcircuitrytopreventwriteswithvoltageoutofspecication.TheMR0A08Bistheideal

memorysolutionforapplicationsthatmustpermanentlystoreandretrievecriticaldataandprograms

quickly.

TheMR0A08Bisavailableinsmallfootprint400-mil,44-leadplasticsmall-outlineTSOPtype-2package,

8mmx8mm,48-pinballgridarray(BGA)packagewith0.75mmballcentersora32-leadSOICpackage.

Thesepackagesarecompatiblewithsimilarlow-powerSRAMproductsandothernon-volatileRAMprod-

ucts.

TheMR0A08Bprovideshighlyreliabledatastorageoverawiderangeoftemperatures.Theproductisof-

feredwithcommercialtemperature(0to+70°C)andindustrialtemperature(-40to+85°C).

MR0A08BRev.5,12/20111

RoHS

CONTENTS

1.DEVICEPINASSIGNMENT.........................................................................2

2.ELECTRICALSPECIFICATIONS.................................................................4

3.TIMINGSPECIFICATIONS.......................................................................... 7

4.ORDERINGINFORMATION.......................................................................12

5.MECHANICALDRAWING..........................................................................13

6.REVISIONHISTORY......................................................................................16

HowtoReachUs..........................................................................................16

EverspinTechnologies©2011

MR0A08BRev.5,12/20112

CHIP

ENABLE

BUFFER

OUTPUT

ENABLE

BUFFER

ADDRESS

BUFFER

WRITE

ENABLE

BUFFER

OUTPUT ENABLE

128k x 8

BIT

MEMORY

ARRAY

ROW

DECODER

COLUMN

DECODER

SENSE

AMPS

OUTPUT

BUFFER

WRITE

DRIVER

FINAL

WRITE

DRIVERS

WRITE ENABLE

A[16:0]

DQ[7:0]

1. DEVICE PIN ASSIGNMENT

Figure 1.1 Block Diagram

Table 1.1 Pin Functions

Signal Name Function

A AddressInput

E ChipEnable

W WriteEnable

G OutputEnable

DQ DataI/O

VDD PowerSupply

VSS Ground

DC DoNotConnect

NC NoConnection

MR0A08B

EverspinTechnologies©2011

A

A

A

A

DQ0

DQ1

VDD

VSS

DQ2

DQ3

A

A

A

A

DC 22

44 DC

A

DQ7

DQ6

VSS

A

VDD

DQ5

DQ4

A

A

A

A

A

A

A

123456

GA0A1A2A

A4EB

A6C

VDD

A14

VSS

A12 A13

DQ7

DQ2

DQ3

DQ1

DQ0DQ4

DQ5

DQ6

A10 A11

A9NC H

NCNC

DCDC

A16

A15

MR0A08BRev.5,12/20113

Figure 1.2 Pin Diagrams for Available Packages (Top View)

44 Pin TSOP2 32 Pin SOIC 48 Pin FBGA

Table 1.2 Operating Modes

E1G1W1Mode VDD Current DQ[7:0]2

HX X Notselected ISB1,ISB2 Hi-Z

L H H Outputdisabled IDDR Hi-Z

L L H ByteRead IDDR DOut

LXL ByteWrite IDDW Din

1H=high,L=low,X=don’tcare

2Hi-Z=highimpedance

DEVICE PIN ASSIGNMENT MR0A08B

EverspinTechnologies©2011

A16

A14

A12

DQ0

DQ1

VDD

A15

A13

A11

A10

DQ7

DQ6

DQ5

DQ4

DQ3

DQ2

VSS

2. ELECTRICAL SPECIFICATIONS

Absolute Maximum Ratings

Thisdevicecontainscircuitrytoprotecttheinputsagainstdamagecausedbyhighstaticvoltagesor

electricelds;however,itisadvisedthatnormalprecautionsbetakentoavoidapplicationofany

voltagegreaterthanmaximumratedvoltagestothesehigh-impedance(Hi-Z)circuits.

Thedevicealsocontainsprotectionagainstexternalmagneticelds.Precautionsshouldbetaken

toavoidapplicationofanymagneticeldmoreintensethanthemaximumeldintensityspecied

inthemaximumratings.

MMR0A08BRev.5,12/20114

Parameter Symbol Value Unit

Supplyvoltage2VDD -0.5to4.0 V

Voltageonanypin2VIN -0.5toVDD+0.5 V

Outputcurrentperpin IOUT ±20 mA

Packagepowerdissipation3PD0.600 W

Temperatureunderbias

MR0A08B(Commercial)

MR0A08BC(Industrial)

TBIAS -10to85

-45to95

°C

StorageTemperature Tstg -55to150 °C

Leadtemperatureduringsolder(3minutemax) TLead 260 °C

Maximummagneticeldduringwrite

MR0A08B(AllTemperatures) Hmax_write 2000 A/m

Maximummagneticeldduringreadorstandby Hmax_read 8000 A/m

1Permanentdevicedamagemayoccurifabsolutemaximumratingsareexceeded.Functionalopera-

tionshouldberestrictedtorecommendedoperatingconditions.Exposuretoexcessivevoltagesor

magneticeldscouldaectdevicereliability.

2AllvoltagesarereferencedtoVSS.

3 Powerdissipationcapabilitydependsonpackagecharacteristicsanduseenvironment.

Table 2.1 Absolute Maximum Ratings1

MR0A08B

EverspinTechnologies©2011

MMR0A08BRev.5,12/20115

Parameter Symbol Min Typical Max Unit

Powersupplyvoltage VDD 3.013.3 3.6 V

Writeinhibitvoltage VWI 2.5 2.7 3.0i V

Inputhighvoltage VIH 2.2 - VDD+0.32 V

Inputlowvoltage VIL -0.53- 0.8 V

Temperatureunderbias

MR0A08B(Commercial)

MR0A08BC(Industrial)

TA0

-40

°C

1 Thereisa2msstartuptimeonceVDDexceedsVDD,(max).SeePower Up and Power Down Sequencing below.

2 VIH(max)=VDD+0.3VDC;VIH(max)=VDD+2.0VAC(pulsewidth≤10ns)forI≤20.0mA.

3V

IL(min)=-0.5VDC;VIL(min)=-2.0VAC(pulsewidth≤10ns)forI≤20.0mA.

Table 2.2 Operating Conditions

Power Up and Power Down Sequencing

TheMRAMisprotectedfromwriteoperationswheneverVDDislessthanVWI.AssoonasVDDexceedsVDD(min),

thereisastartuptimeof2msbeforereadorwriteoperationscanstart.Thistimeallowsmemorypower

suppliestostabilize.

TheEandWcontrolsignalsshouldtrackVDDonpoweruptoVDD-0.2VorVIH(whicheverislower)andremain

highforthestartuptime.Inmostsystems,thismeansthatthesesignalsshouldbepulledupwitharesis-

torsothatsignalremainshighifthedrivingsignalisHi-Zduringpowerup.AnylogicthatdrivesEandW

shouldholdthesignalshighwithapower-onresetsignalforlongerthanthestartuptime.

DuringpowerlossorbrownoutwhereVDDgoesbelowVWI,writesareprotectedandastartuptimemustbe

observedwhenpowerreturnsaboveVDD(min).

BROWNOUT or POWER LOSS

NORMAL

OPERATION

VDD

READ/WRITE

INHIBITED

VWIDD

2 ms

READ/WRITE

INHIBITED

VIH

STARTUP

NORMAL

OPERATION

2 ms

RECOVER

VIH

Figure 2.1 Power Up and Power Down Diagram

MR0A08B

Electrical Specications

EverspinTechnologies©2011

MR0A08BRev.5,12/20116

Parameter Symbol Min Typical Max Unit

Inputleakagecurrent Ilkg(I) - - ±1 μA

Outputleakagecurrent Ilkg(O) - - ±1 μA

Outputlowvoltage

(IOL=+4mA)

(IOL=+100μA)

VOL - - 0.4

VSS+0.2

Outputhighvoltage

(IOL=-4mA)

(IOL=-100μA)

VOH 2.4

VDD-0.2

--V

Table 2.3 DC Characteristics

Table 2.4 Power Supply Characteristics

MR0A08B

Electrical Specications

EverspinTechnologies©2011

Parameter Symbol Typical Max Unit

ACactivesupplycurrent-readmodes1

(IOUT=0mA,VDD=max) IDDR 25 30 mA

ACactivesupplycurrent-writemodes1

(VDD=max)

MR0A08B(Commercial)

MR0A08BC(Industrial)

IDDW 55

ACstandbycurrent

(VDD=max,E=VIH)

no other restrictions on other inputs

ISB1 6 7 mA

CMOSstandbycurrent

(E≥VDD-0.2VandVIn≤VSS+0.2Vor≥VDD-0.2V)

(VDD=max,f=0MHz)

ISB2 5 6 mA

1 Allactivecurrentmeasurementsaremeasuredwithoneaddresstransitionpercycleandatminimumcycletime.

MR0A08BRev.5,12/20117

MR0A08B

3. TIMING SPECIFICATIONS

Table 3.1 Capacitance1

Parameter Symbol Typical Max Unit

Addressinputcapacitance CIn - 6 pF

Controlinputcapacitance CIn - 6 pF

Input/Outputcapacitance CI/O - 8 pF

1 f=1.0MHz,dV=3.0V,TA=25°C,periodicallysampledratherthan100%tested.

Table 3.2 AC Measurement Conditions

Figure 3.1 Output Load Test Low and High

Figure 3.2 Output Load Test All Others

Parameter Value Unit

Logicinputtimingmeasurementreferencelevel 1.5 V

Logicoutputtimingmeasurementreferencelevel 1.5 V

Logicinputpulselevels 0or3.0 V

Inputrise/falltime 2 ns

Outputloadforlowandhighimpedanceparameters SeeFigure3.1

Outputloadforallothertimingparameters SeeFigure3.2

Output

L= 1.5 V

RL= 50 Ω

ZD= 50 Ω

Output

435 Ω

590 Ω

5 pF

3.3 V

EverspinTechnologies©2011

MR0A08B

Timing Specications

MR0A08BRev.5,12/20118

Parameter Symbol Min Max Unit

Readcycletime tAVAV 35 - ns

Addressaccesstime tAVQV - 35 ns

Enableaccesstime2tELQV - 35 ns

Outputenableaccesstime tGLQV - 15 ns

Outputholdfromaddresschange tAXQX 3- ns

Enablelowtooutputactive3tELQX 3- ns

Outputenablelowtooutputactive3tGLQX 0 - ns

EnablehightooutputHi-Z3tEHQZ 0 15 ns

OutputenablehightooutputHi-Z3tGHQZ 0 10 ns

1 Wishighforreadcycle.Powersuppliesmustbeproperlygroundedanddecoupled,andbuscontentionconditionsmustbe

minimizedoreliminatedduringreadorwritecycles.

2 AddressesvalidbeforeoratthesametimeEgoeslow.

3 Thisparameterissampledandnot100%tested.Transitionismeasured±200mVfromthesteady-statevoltage.

Table 3.3 Read Cycle Timing1

Read Mode

Figure 3.3A Read Cycle 1

Figure 3.3B Read Cycle 2

A (ADDRESS)

Q (DATA OUT)

tAVAV

tAXQX

tAVQV

Previous Data Valid

Note: Device is continuously selected (E≤VIL, G≤VIL).

Data Valid

A (ADDRESS)

E (CHIP ENABLE)

G (OUTPUT ENABLE)

Q (DATA OUT) Data Valid

tAVAV

tAVQV

tELQV

tELQX

tGHQZ

tEHQZ

tGLQV

tGLQX

EverspinTechnologies©2011

MR0A08B

Timing Specications

MR0A08BRev.5,12/20119

Table 3.4 Write Cycle Timing 1 (W Controlled)1

Parameter Symbol Min Max Unit

Writecycletime2tAVAV 35 - ns

Addressset-uptime tAVWL 0 - ns

Addressvalidtoendofwrite(Ghigh) tAVWH 18 - ns

Addressvalidtoendofwrite(Glow) tAVWH 20 - ns

Writepulsewidth(Ghigh) tWLWH

tWLEH

15 - ns

Writepulsewidth(Glow) tWLWH

tWLEH

15 - ns

Datavalidtoendofwrite tDVWH 10 - ns

Dataholdtime tWHDX 0 - ns

WritelowtodataHi-Z3tWLQZ 0 12 ns

Writehightooutputactive3tWHQX 3- ns

Writerecoverytime tWHAX 12 - ns

1 AllwriteoccursduringtheoverlapofElowandWlow.Powersuppliesmustbeproperlygroundedanddecoupledandbus

contentionconditionsmustbeminimizedoreliminatedduringreadandwritecycles.IfGgoeslowatthesametimeorafter

Wgoeslow,theoutputwillremaininahighimpedancestate.AfterWorEhasbeenbroughthigh,thesignalmustremainin

steady-statehighforaminimumof2ns.TheminimumtimebetweenEbeingassertedlowinonecycletoEbeingasserted

lowinasubsequentcycleisthesameastheminimumcycletimeallowedforthedevice.

2 Allwritecycletimingsarereferencedfromthelastvalidaddresstothersttransitionaddress.

3 Thisparameterissampledandnot100%tested.Transitionismeasured±200mVfromthesteady-statevoltage.Atanygiven

voltageortemperate,tWLQZ(max)<tWHQX(min)

W (WRITE ENABLE)

A (ADDRESS)

E (CHIP ENABLE)

AVAV

AVWH

WHAX

AVWL

WLEH

WLWH

DATA VALID

DVWH

WHDX

Q (DATA OUT)

D (DATA IN)

WLQZ

WHQX

Hi -Z Hi -Z

Figure 3.4 Write Cycle Timing 1 (W Controlled)

EverspinTechnologies©2011

MR0A08B

Timing Specications

EverspinTechnologies©2011 MR0A08BRev.5,12/201110

Table 3.5 Write Cycle Timing 2 (E Controlled)1

Figure 3.5 Write Cycle Timing 2 (E Controlled)

Parameter Symbol Min Max Unit

Writecycletime2tAVAV 35 - ns

Addressset-uptime tAVEL 0 - ns

Addressvalidtoendofwrite(Ghigh) tAVEH 18 - ns

Addressvalidtoendofwrite(Glow) tAVEH 20 - ns

Enabletoendofwrite(Ghigh) tELEH

tELWH

15 - ns

Enabletoendofwrite(Glow)3tELEH

tELWH

15 - ns

Datavalidtoendofwrite tDVEH 10 - ns

Dataholdtime tEHDX 0 - ns

Writerecoverytime tEHAX 12 - ns

1 AllwriteoccursduringtheoverlapofElowandWlow.Powersuppliesmustbeproperlygroundedanddecoupledandbus

contentionconditionsmustbeminimizedoreliminatedduringreadandwritecycles.IfGgoeslowatthesametimeorafter

Wgoeslow,theoutputwillremaininahighimpedancestate.AfterWorEhasbeenbroughthigh,thesignalmustremainin

steady-statehighforaminimumof2ns.TheminimumtimebetweenEbeingassertedlowinonecycletoEbeingasserted

lowinasubsequentcycleisthesameastheminimumcycletimeallowedforthedevice.

2 Allwritecycletimingsarereferencedfromthelastvalidaddresstothersttransitionaddress.

3 IfEgoeslowatthesametimeorafterWgoeslow,theoutputwillremaininahigh-impedancestate.IfEgoeshighatthe

sametimeorbeforeWgoeshigh,theoutputwillremaininahigh-impedancestate.

A (ADDRESS)

E (CHIP ENABLE)

W (WRITE ENABLE)

Q (DATA OUT)

D (DATA IN)

tAVAV

tAVEH

tAVEL

tEHAX

tEHDX

tDVEH

Hi-Z

Data Valid

tELEH

tELWH

MR0A08B

Timing Specications

MR0A08BRev.5,12/201111

Table 3.6 Write Cycle Timing 3 (Shortened tWHAX, W and E Controlled)1

Table 3.6 Write Cycle Timing 3 (Shortened tWHAX, W and E Controlled)

Parameter Symbol Min Max Unit

Writecycletime2tAVAV 35 - ns

Addressset-uptime tAVWL 0 - ns

Addressvalidtoendofwrite(Ghigh) tAVWH 18 - ns

Addressvalidtoendofwrite(Glow) tAVWH 20 - ns

Writepulsewidth tWLWH

tWLEH

15 - ns

Datavalidtoendofwrite tDVWH 10 - ns

Dataholdtime tWHDX 0 - ns

Enablerecoverytime tEHAX -2 - ns

Writerecoverytime3tWHAX 6 - ns

Writetoenablerecoverytime3tWHEL 12 - ns

1 AllwriteoccursduringtheoverlapofElowandWlow.Powersuppliesmustbeproperlygroundedanddecoupledandbus

contentionconditionsmustbeminimizedoreliminatedduringreadandwritecycles.IfGgoeslowatthesametimeorafter

Wgoeslow,theoutputwillremaininahighimpedancestate.AfterW,orEhasbeenbroughthigh,thesignalmustremainin

steady-statehighforaminimumof2ns.TheminimumtimebetweenEbeingassertedlowinonecycletoEbeingasserted

lowinasubsequentcycleisthesameastheminimumcycletimeallowedforthedevice.

2 Allwritecycletimingsarereferencedfromthelastvalidaddresstothersttransitionaddress.

3 IfEgoeslowatthesametimeorafterWgoeslowtheoutputwillremaininahighimpedancestate.IfEgoeshighatthesame

timeorbeforeWgoeshightheoutputwillremaininahighimpedancestate.Emustbebroughthigheachcycle.

tAVWL

tAVAV

tAVWH

tWLWH

WLEH

DVWH

WHDX

tWHAX

tEHAX

WHEL

W (WRITE ENABLE)

A (ADDRESS)

E (CHIP ENABLE)

D (DATA IN)

MR0A08BRev.5,12/201112

MR0A08B

4. ORDERING INFORMATION

Figure 4.1 Part Numbering System

Part Number Description Package Ship Pack Temp Range

MR0A08BYS35 3.3V128Kx8MRAMCommercial 44-TSOP Tray 0to70°C

MR0A08BCYS35 3.3V128Kx8MRAMIndustrial 44-TSOP Tray -40to+85°C

MR0A08BYS35R 3.3V128Kx8MRAMCommercial 44-TSOP Tape&Reel 0to70°C

MR0A08BCYS35R 3.3V128Kx8MRAMIndustrial 44-TSOP Tape&Reel -40to+85°C

MR0A08BMA35 3.3V128Kx8MRAMCommercial 48-BGA Tray 0to70°C

MR0A08BCMA35 3.3V128Kx8MRAMIndustrial 48-BGA Tray -40to+85°C

MR0A08BMA35R 3.3V128Kx8MRAMCommercial 48-BGA Tape&Reel 0to70°C

MR0A08BCMA35R 3.3V128Kx8MRAMIndustrial 48-BGA Tape&Reel -40to+85°C

MR0A08BSO35 3.3V128Kx8MRAMCommercial 32-SOIC Tray 0to70°C

MR0A08BCSO3513.3V128Kx8MRAMIndustrial 32-SOIC Tray -40to+85°C

Table 4.1 Available Parts

Carrier Blank = Tray, R = Tape & Reel

Speed 35 ns

Package YS = TSOP2, MA = FBGA, SO=SOIC

Temperature Range

Blank= 0 to +70 °C, C= -40 to +85 °C

Revision

Data Width 08 = 8-Bit

Type A = Asynchronous

Density 0 = 1Mb

Magnetoresistive RAM

MR 0 A 08 B C YS 35 R

1PreliminaryProduct:ThisproductisclassiedasPreliminaryuntilthecompletionofallqualicationtests.Thespeci-

cationsinthisdatasheetareintendedtobenalbutaresubjecttochange.PleasechecktheEverspinwebsitewww.

everspin.comforthelatestinformationonproductstatus.

MR0A08BRev.5,12/201113

Figure 5.1 TSOP2

MR0A08B

5. MECHANICAL DRAWING

Print Version Not To Scale

1. DimensionsandtolerancesperASMEY14.5M-1994.

2. DimensionsinMillimeters.

3. Dimensionsdonotincludemoldprotrusion.

4. DimensiondoesnotincludeDAMbarprotrusions.

 DAMBarprotrusionshallnotcausetheleadwidthtoexceed0.58.

MR0A08BRev.5,12/201114

Figure 5.2 FBGA

MR0A08B

Mechanical Drawings

TOP VIEW

BOTTOM VIEW SIDE VIEW

0.41

0.31 0.32

0.22

Print Version Not To Scale

1. DimensionsinMillimeters.

2. DimensionsandtolerancesperASMEY14.5M-1994.

3. MaximumsolderballdiametermeasuredparalleltoDATUMA

4. DATUMA,theseatingplaneisdeterminedbythesphericalcrowns

ofthesolderballs.

5. Parallelismmeasurementshallexcludeanyeectofmarkontop

surfaceofpackage.

MR0A08BRev.5,12/201115

MR0A08B

Mechanical Drawings

Figure 5.3 SOIC

Unit A B C D E F G H I J K

mm-Min

-Max

20.574

20.878

1.00

1.50

0.355

0.508

0.66

0.81

0.101

0.254

2.286

2.540

Radius

0.101

0.533

1.041

0.152

0.304

7.416

7.594

10.287

10.642

inch-Min

-Max

0.810

0.822

0.04

0.06

0.14

0.02

0.026

0.032

0.004

0.010

0.09

0.10

Radius

0.0040

0.021

0.041

0.006

0.012

0.292

0.299

0.405

0.419

1 16

32 17

PIN 1 ID

E F

Reference JEDEC MO-119

Print Version Not To Scale

MR0A08B

  MR0A08BRev.5,12/201116

Revision Date Description of Change

0 Sep12,2008 InitialAdvanceInformationRelease

1 May8,2009

Revisedformat;AddTable3.6WriteTimingCycle3;AddFigure3.6WriteTim-

ingCycle3;AddTSOPIILeadWidthInfo;ChangedtoPreliminaryfromProd-

uctConcept.

2 June18,2009 ChangedfromdatasheetfromPreliminarytoProductionexceptwhere

noted.

3Apr12,2011 AddedSOICpackageoption.

4August15,

2011

CorrectedSOICPin1toreadDC.Updatedcontactinformation.Revised

5 Dec16,2011

ChangedTSOP-IItoTSOP2.ChangedlogotonewESTLogo.AddedIndustri-

alTempGradeoptioninSOICpackage,Table4.1.DeletedTape&Reelpack

optionforallSOICpackagedparts.Figure2.1cosmeticupdate.Figure5.2

BGApackageoutlinedrawingrevisedforballsize.

6. REVISION HISTORY

Information in this document is provided solely to enable system and software implementers to use

Everspin Technologies products. There are no express or implied licenses granted hereunder to design or

fabricate any integrated circuit or circuits based on the information in this document. Everspin Technolo-

gies reserves the right to make changes without further notice to any products herein. Everspin makes no

warranty, representation or guarantee regarding the suitability of its products for any particular purpose,

nor does Everspin Technologies assume any liability arising out of the application or use of any product or

circuit, and specically disclaims any and all liability, including without limitation consequential or inci-

dental damages. “Typical” parameters, which may be provided in Everspin Technologies data sheets and/

or specications can and do vary in dierent applications and actual performance may vary over time. All

operating parameters including “Typicals” must be validated for each customer application by customer’s

technical experts. Everspin Technologies does not convey any license under its patent rights nor the rights

of others. Everspin Technologies products are not designed, intended, or authorized for use as compo-

nents in systems intended for surgical implant into the body, or other applications intended to support

or sustain life, or for any other application in which the failure of the Everspin Technologies product

could create a situation where personal injury or death may occur. Should Buyer purchase or use Everspin

Technologies products for any such unintended or unauthorized application, Buyer shall indemnify and

hold Everspin Technologies and its ocers, employees, subsidiaries, aliates, and distributors harmless

against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or

indirectly, any claim of personal injury or death associated with such unintended or unauthorized use,

even if such claim alleges that Everspin Technologies was negligent regarding the design or manufacture

of the part. Everspin™ and the Everspin logo are trademarks of Everspin Technologies, Inc. All other

product or service names are the property of their respective owners.

How to Reach Us:

Home Page:

www.everspin.com

E-Mail:

support@everspin.com

orders@everspin.com

sales@everspin.com

USA/Canada/South and Central America

Everspin Technologies

1347N.AlmaSchoolRoad,Suite220

Chandler,Arizona85224

+1-877-347-MRAM(6726)

+1-480-347-1111

Europe, Middle East and Africa

support.europe@everspin.com

Japan

support.japan@everspin.com

Asia Pacic

support.asia@everspin.com

File Name:

MR0A08B_Datasheet_EST183_Rev5.pdf