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//****************************************************************************
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// This file contains the paramenters which define the part for the
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// Smart 3 Advanced Boot Block memory model (adv_bb.v). The '2.7V Vcc Timing'
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// parameters are representative of the 28F160B3-120 operating at 2.7-3.6V Vcc.
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// These parameters need to be changed if the 28F160B3-150 operating at
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// 2.7-3.6V Vcc is to be modeled. The parameters were taken from the Smart 3
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// Advanced Boot Block Flash Memory Family datasheet (Order Number 290580).
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// This file must be loaded before the main model, as it contains
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// definitions required by the model.
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//28F160B3-B
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`define BlockFileBegin "f160b3b.bkb" //starting addresses of each block
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`define BlockFileEnd "f160b3b.bke" //ending addresses of each block
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`define BlockFileType "f160b3b.bkt" //block types
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//Available Vcc supported by the device.
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`define VccLevels 4 //Bit 0 - 5V, Bit 1 = 3.3V, Bit 2 = 2.7V
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`define AddrSize 20 //number of address pins
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`define MaxAddr `AddrSize'hFFFFF // device ending address
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`define MainArraySize 0:`MaxAddr //array definition in bytes
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//include A-1 for 8 bit mode
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`define MaxOutputs 16 //number of output pins
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`define NumberOfBlocks 39 //number of blocks in the array
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`define ID_DeviceCodeB 'h8891 //160B3 Bottom
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`define ID_ManufacturerB 'h0089
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// Timing parameters. See the data sheet for definition of the parameter.
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// Only the WE# controlled write timing parameters are used since their
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// respective CE# controlled write timing parameters have the same value.
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// The model does not differentiate between the two types of writes.
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//2.7V Vcc Timing
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// Changed the timings below to represent a "c3" device. --- RU 9/9/99
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`define TAVAV_27 110
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`define TAVQV_27 110
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`define TELQV_27 110
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`define TPHQV_27 150
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`define TGLQV_27 0
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`define TELQX_27 0
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`define TEHQZ_27 20
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`define TGLQX_27 0
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`define TGHQZ_27 20
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`define TOH_27 0
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`define TPHWL_27 150
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`define TWLWH_27 70
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`define TDVWH_27 60
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`define TAVWH_27 70
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`define TWHDX_27 0
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`define TWHAX_27 0
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`define TWHWL_27 30
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`define TVPWH_27 200
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// The following constants control how long it take an algorithm to run
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// to scale all times together (for making simulation run faster
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// change the constant later listed as TimerPeriod. The actual delays
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// are TimerPeriod*xxx_Time, except for the suspend latency times.
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`define TimerPeriod_ 1000 //1 usec = 1000ns requires for
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//following times to be accurate
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// The typical values given in the datasheet are used.
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// reducing the following will reduce simulation time
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//2.7V Vcc, 12V Vpp
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`define AC_ProgramTime_Word_27_12 8 //usecs
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`define AC_EraseTime_Param_27_12 800000 //0.8secs
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`define AC_EraseTime_Main_27_12 1100000 //1.1secs
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//Latency times are NOT multiplied by TimerPeriod_
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`define AC_Program_Suspend_27_12 5000 //5 usecs
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`define AC_Erase_Suspend_27_12 10000 //10 usecs
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//2.7V Vcc 2.7V Vpp
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`define AC_ProgramTime_Word_27_27 22 //usecs
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`define AC_EraseTime_Param_27_27 1000000 //1sec
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`define AC_EraseTime_Main_27_27 1800000 //1.8secs
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//Latency times are NOT multiplied by TimerPeriod_
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`define AC_Program_Suspend_27_27 6000 //6 usecs
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`define AC_Erase_Suspend_27_27 13000 //13 usecs
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