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Latch� on� CS� active�
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This� triggers� the� latch� when� CS� goes� active,� irrespective� of� WT� or� OE.� You� might� choose� this� setting� if�
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your� system� has� a� very� narrow� WT� active� signal.� Latching� the� addresses� much� earlier� in� the� cycle� may�
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make� it� possible� to� operate� in� a� target� that� violates� our� MNIMUM� Twp� spec� of� 25ns.�
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It� may� also� allow� us� to� operate� properly� in� a� target� that� generates� noise� on� the� address� lines� while� the�
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write� cycle� is� in� process.� Once� a� write� has� started,� it� is� illegal� to� change� the� address� lines.� Any� noise� on�
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the� address� lines� during� the� write� will� corrupt� one� or� more� memory� locations.� Some� targets� will� have�
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stable� addresses� just� before� the� WT� goes� active,� but� generate� noise� right� after� or� during� the� WT� active.�
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Latching� earlier� in� the� cycle� makes� us� immune� to� these� violations.�
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DO� NOT� USE� THIS� SETTING� IF� YOUR� TARGET� PERMANENTLY� GROUNDS� (ENABLES)� THE�
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CS� SIGNAL.�
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You� also� would� NOT� want� to� use� this� setting� if� your� target� does� burst� reads� to� the� emulator.� This� occurs�
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when� the� target� asserts� CS� and� OE� and� then� does� a� sequence� of� ADDRESS� –� controlled� reads� without�
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releasing� either� CS� or� OE� between� each� access.� In� this� case,� you� could� use� the� ‘LATCH� on� CS� and� NOT�
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OE’� setting.�
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Latch� on� CS� and� WT� active� (default)�
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This� triggers� the� latch� when� we� see� BOTH� CS� active� and� WT� active.� This� is� the� default� setting.� It� is�
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appropriate� in� most� cases.�
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Latch� on� CS� and� either� WT� or� OE�
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This� latches� the� addresses� when� CS� is� active� AND� EITHER� WT� or� OE� are� active.� This� might� be�
�
appropriate� if� noise� on� the� address� lines� is� causing� access� time� violations.� ‘LATCH� on� CS� ACTIVE’� is�
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another� option� if� your� target� does� not� have� its� CS� line� grounded� and� it� does� not� do� burst-reads.�
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Latch� on� CS� and� NOT� OE�
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This� setting� triggers� the� latch� when� CS� goes� active,� but� then� RELEASES� the� address� lines� if� it� sees� OE�
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go� active.� This� allows� us� to� do� early� latching� if� desired� but� still� support� targets� that� do� burst-reads.�
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Latch� Delay� Enable�
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This� option� specifies� IF� (and� how� much)� we� delay� actually� freezing� the� address� lines� after� a� signal�
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triggers� latching.� Most� address� line� noise� occurs� immediately� after� control� signals� activate� or� when� the�
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emulator� begins� driving� data� back� to� the� target.� Being� able� to� delay� latching� the� address� until� after� the�
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noise� settles� down� makes� it� possible� for� us� to� be� immune� to� it.�
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The� default� setting� is� Latch� Delay� is� ENABLED� and� set� to� its� minimum� delay� setting.�
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Latch� BHE/BLE� Enable�
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This� option� specifies� that� we� should� freeze� the� Byte� Enable� signals� as� well� as� the� addresses.� It� is� on� by�
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default.� Most� targets� do� not� drive� BLE� or� BHE� directly.� The� ACM-8� derives� them� from� A0.� The� ACM-�
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16� forces� them� both� active.� The� only� time� you� might� need� to� turn� this� option� OFF� is� if� you� are� using� the�
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ACM-C� module� and� your� target� needs� to� change� the� Byte� Enable� lines� without� release� CS� or� the� WT� or�
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OE� signals.� This� is� conceivable� but� highly� unlikely.�
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FlexROM� III� User’s� Manual�
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24�
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Copyright� ?� 2001,� TechTools�
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