?? dk3200_2.frp
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******************************************************************************************
PSDsoft Express Version 7.51
Output of PSD Fitter
******************************************************************************************
PROJECT : DK3200_2 DATE : 11/03/2002
DEVICE : uPSD3234A TIME : 16:53:18
FIT OPTION : Keep Current
DESCRIPTION: Example design for uPSD3234A in Application Note AN1560.
Simple memory map with 32K secondary flash in code space, and
256K main flash paged in data space. Down-Counter built in
PLD. Runs on DK3200 board.
******************************************************************************************
==== Pin Layout for U (80-Pin TQFP) Package Type ====
-----------------------------
| |
|1 ] pd2 adio4 [41| Address Bus A4/Data Port D4, a4
|2 ] p3_3 p3_5 [42|
|3 ] pd1 adio5 [43| Address Bus A5/Data Port D5, a5
ale |4 ] pd0 p3_6 [44|
|5 ] pc7 adio6 [45| Address Bus A6/Data Port D6, a6
tdo, TDO |6 ] pc6/TDO p3_7 [46|
tdi, TDI |7 ] pc5/TDI adio7 [47| Address Bus A7/Data Port D7, a7
USB_minus |8 ] USBm Xtal1 [48| Xtal1
_terr, TERR |9 ] pc4/TERR Xtal2 [49| Xtal2
USB_plus |10] USBp VCC [50|
|11] N/C adio8 [51| Address Bus A8, a8
|12] VCC p1_0 [52|
|13] GND adio9 [53| Address Bus A9, a9
tstat, TSTAT |14] pc3/TSTAT p1_1 [54|
|15] pc2 adio10 [55| Address Bus A10, a10
tck, TCK |16] pc1/TCK p1_2 [56|
|17] N/C adio11 [57| Address Bus A11, a11
p4_7 |18] p4_7 p1_3 [58|
|19] p4_6 p1_4 [59| ADC_Ch0
tms, TMS |20] pc0/TMS p1_5 [60|
LCD_d7 ,Peripheral I/O Mode |21] pa7 p1_6 [61|
LCD_d6 ,Peripheral I/O Mode |22] pa6 cntl1 [62| _wr
|23] p4_5 cntl2 [63| _psen
LCD_d5 ,Peripheral I/O Mode |24] pa5 p1_7 [64|
|25] p4_4 cntl0 [65| _rd
LCD_d4 ,Peripheral I/O Mode |26] pa4 pb7 [66| LCD_e
PWM0 |27] p4_3 pb6 [67| LCD_rw
LCD_d3 ,Peripheral I/O Mode |28] pa3 Reset_In [68| Reset_In
|29] GND GND [69|
|30] p4_2 Vref [70| VREF
|31] p4_1 N/C [71|
LCD_d2 ,Peripheral I/O Mode |32] pa2 pb5 [72| LCD_rs
|33] p4_0 pb4 [73| term_count
LCD_d1 ,Peripheral I/O Mode |34] pa1 pb3 [74| a15_x
LCD_d0 ,Peripheral I/O Mode |35] pa0 p3_0 [75| USART1_Rxd
a0, Address Bus A0/Data Port D0 |36] adio0 pb2 [76| a14_x
a1, Address Bus A1/Data Port D1 |37] adio1 p3_1 [77| USART1_Txd
a2, Address Bus A2/Data Port D2 |38] adio2 pb1 [78| a13_x
a3, Address Bus A3/Data Port D3 |39] adio3 p3_2 [79|
|40] p3_4 pb0 [80| a12_x
| |
-----------------------------
==== Global Configuration ====
Data Bus : 8-Bit
Address/Data Mode : Multiplexed
ALE/AS Signal : Active High
Control Signals : /WR, /RD, /PSEN
Main PSD flash memory will reside in this space at power-up : Data space
Secondary PSD flash memory will reside in this space at power-up : Program space
Enable Chip-Select Input(/CSI) : OFF
Standby Voltage Input (PC2) : OFF
Standby-on Indicator (PC4) : OFF
RDY/Busy function (PC3) : OFF
Load Micro-Cell on : edge
Security Protection : OFF
==== DataBus_IMC access information ====
CSIOP
Location Address Offset Register Name Signals
--------------------------------------------------------
===== Resource Usage Summary =====
Total Product Terms Used: 73
Device Resources used / total
------------------------------------------------
Port A: (pins 35 34 32 28 26 24 22 21)
I/O Pins : 8 / 8
GP I/O or Address Out : 0
Peripheral I/O : 8
Logic Inputs : 0
Address Latch Inputs : 0
PT Dependent Latch Inputs : 0
PT Dependent Register Inputs : 0
Combinatorial Outputs : 0
Registered Outputs : 0
Other Information
Microcells : 8 / 8
Micro-Cells AB :
Buried Microcells : 8
Output Microcells : 0
Product Terms : 15 / 24
Control Product Terms : 24 / 34
Port B: (pins 80 78 76 74 73 72 67 66)
I/O Pins : 8 / 8
GP I/O or Address Out : 0
Logic Inputs : 0
Address Latch Inputs : 0
PT Dependent Latch Inputs : 0
PT Dependent Register Inputs : 0
Combinatorial Outputs : 8
Registered Outputs : 0
Other Information
Microcells : 8 / 8
Micro-Cells AB :
Buried Microcells : 0
Output Microcells : 0
Micro-Cells BC :
Buried Microcells : 0
Output Microcells : 8
Product Terms : 9 / 32
Control Product Terms : 8 / 34
Port C: (pins 20 16 15 14 9 7 6 5)
I/O Pins : 6 / 8
GP I/O or Address Out : 0
Logic Inputs : 0
Address Latch Inputs : 0
PT Dependent Latch Inputs : 0
PT Dependent Register Inputs : 0
JTAG signals : 6
Standby Voltage Input : 0
Rdy/Bsy signal : 0
Standby On Indicator : 0
Combinatorial Outputs : 0
Registered Outputs : 0
Other Information
Microcells : 8 / 8
Micro-Cells BC :
Buried Microcells : 8
Output Microcells : 0
Product Terms : 9 / 32
Control Product Terms : 0 / 34
Port D: (pins 4 3 1)
I/O Pins : 1 / 3
GP I/O or Address Out : 0
Logic Inputs : 0
Chip-Select Input : 0
Clock Input : 0
Control Signal Input : 1
Fast Decoding Outputs : 0
Other Information
Product Terms : 0 / 3
Control Product Terms : 0 / 3
==== OMC Resource Assignment ====
Resources PT User
Used Allocation Name
---------------------------------------------------------
Micro-Cell AB :
Micro-Cells 0 - init_count0 => Register
Micro-Cells 1 - init_count1 => Register
Micro-Cells 2 - init_count2 => Register
Micro-Cells 3 - init_count3 => Register
Micro-Cells 4 - down_count0 => Register
Micro-Cells 5 - down_count1 => Register
Micro-Cells 6 - down_count2 => Register
Micro-Cells 7 - down_count3 => Register
Micro-Cell BC :
Micro-Cells 0 - a12_x (mcellbc0) => Combinatorial
Micro-Cells 1 - a13_x (mcellbc1) => Combinatorial
Micro-Cells 2 - a14_x (mcellbc2) => Combinatorial
Micro-Cells 3 - a15_x (mcellbc3) => Combinatorial
Micro-Cells 4 - term_count (mcellbc4) => Combinatorial
Micro-Cells 5 - LCD_rs (mcellbc5) => Combinatorial
Micro-Cells 6 - LCD_rw (mcellbc6) => Combinatorial
Micro-Cells 7 - LCD_e (mcellbc7) => Combinatorial
External Chip Select :
========= Equations =========
DPLD EQUATIONS :
=======================
fs0 = (!pdn & !a15 & !a14 & !a13)
# (!pdn & !pgr2 & !pgr1 & !pgr0 & a15);
fs1 = !pdn & !pgr2 & !pgr1 & pgr0 & a15;
fs2 = !pdn & !pgr2 & pgr1 & !pgr0 & a15;
fs3 = !pdn & !pgr2 & pgr1 & pgr0 & a15;
fs4 = !pdn & pgr2 & !pgr1 & !pgr0 & a15;
fs5 = !pdn & pgr2 & !pgr1 & pgr0 & a15;
fs6 = !pdn & pgr2 & pgr1 & !pgr0 & a15;
fs7 = !pdn & pgr2 & pgr1 & pgr0 & a15;
csboot0 = (!pdn & !a15 & !a14 & !a13)
# (!pdn & !pgr2 & !pgr1 & !pgr0 & !a14 & !a13);
csboot1 = !pdn & !pgr2 & !pgr1 & !pgr0 & a15 & !a14 & a13;
csboot2 = !pdn & !pgr2 & !pgr1 & !pgr0 & a15 & a14 & !a13;
csboot3 = !pdn & !pgr2 & !pgr1 & !pgr0 & a15 & a14 & a13;
csiop = !pdn & !a15 & a14 & !a13 & !a12 & !a11 & !a10 & !a9 & !a8;
rs0 = !pdn & !a15 & !a14 & a13;
psel0 = !pdn & _psen & !a15 & a14 & !a13 & !a12 & !a11 & !a10 & a9 & a8;
PORTA EQUATIONS :
=======================
init_count0.D := 0;
init_count0.PR = 0;
init_count0.RE = !_reset;
init_count0.C = 0;
init_count1.D := 0;
init_count1.PR = 0;
init_count1.RE = !_reset;
init_count1.C = 0;
init_count2.D := 0;
init_count2.PR = 0;
init_count2.RE = !_reset;
init_count2.C = 0;
init_count3.D := 0;
init_count3.PR = 0;
init_count3.RE = !_reset;
init_count3.C = 0;
down_count0.D := (!down_count0.Q & !term_count.PIN)
# (init_count0 & term_count.PIN);
down_count0.PR = 0;
down_count0.RE = !_reset;
down_count0.C = ale;
down_count1.D := (down_count1.Q & down_count0.Q & !term_count.PIN)
# (!down_count1.Q & !down_count0.Q & !term_count.PIN)
# (init_count1 & term_count.PIN);
down_count1.PR = 0;
down_count1.RE = !_reset;
down_count1.C = ale;
down_count2.T := (!down_count1.Q & !down_count0.Q & !term_count.PIN)
# (!down_count2.Q & init_count2 & term_count.PIN)
# (down_count2.Q & !init_count2 & term_count.PIN);
down_count2.PR = 0;
down_count2.RE = !_reset;
down_count2.C = ale;
down_count3.T := (!down_count3.Q & init_count3 & term_count.PIN)
# (down_count3.Q & !init_count3 & term_count.PIN)
# (!down_count2.Q & !down_count1.Q & !down_count0.Q & !term_count.PIN);
down_count3.PR = 0;
down_count3.RE = !_reset;
down_count3.C = ale;
PORTB EQUATIONS :
=======================
a12_x = a12;
a12_x.OE = 1;
a13_x = a13;
a13_x.OE = 1;
a14_x = a14;
a14_x.OE = 1;
a15_x = a15;
a15_x.OE = 1;
term_count = !down_count3.Q & !down_count2.Q & !down_count1.Q & !down_count0.Q;
term_count.OE = 1;
term_count.LE = 1;
LCD_rs = a1;
LCD_rs.OE = 1;
LCD_rw = a0;
LCD_rw.OE = 1;
LCD_e = (!_rd & !a15 & a14 & !a13 & !a12 & !a11 & !a10 & a9 & a8)
# (!_wr & !a15 & a14 & !a13 & !a12 & !a11 & !a10 & a9 & a8);
LCD_e.OE = 1;
PORTC EQUATIONS :
=======================
PORTD EQUATIONS :
=======================
--- End ---
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