Dec reg1, reg" />
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參數(shù)資料
型號(hào): |
XE8801AMI027LF |
廠商: |
Semtech |
文件頁數(shù): |
51/135頁 |
文件大?。?/td>
| 0K |
描述: |
IC DAS 16BIT FLASH 8K MTP 44LQFP |
標(biāo)準(zhǔn)包裝: |
800 |
系列: |
XE880x |
應(yīng)用: |
感測機(jī)
|
核心處理器: |
Coolrisc816?
|
程序存儲(chǔ)器類型: |
閃存(22 kB)
|
控制器系列: |
XE8000
|
RAM 容量: |
512 x 8
|
接口: |
UART,USRT
|
輸入/輸出數(shù): |
24
|
電源電壓: |
2.4 V ~ 5.5 V
|
工作溫度: |
-40°C ~ 85°C
|
安裝類型: |
表面貼裝
|
封裝/外殼: |
44-VFQFN 裸露焊盤
|
包裝: |
托盤
|
供應(yīng)商設(shè)備封裝: |
44-MLPQ(7x7)
|
產(chǎn)品目錄頁面: |
585 (CN2011-ZH PDF)
|
配用: |
XE8000MP-ND - PROG BOARD AND PROSTART2 CARD
|
Semtech 2005
www.semtech.com
3-5
XE8801A – SX8801R
Dec reg1, reg2
C, V, Z, a
a := reg2-1; if a=hFF then C := 0 else C := 1; reg1 := a
Dec reg
C, V, Z, a
a := reg-1; if a=hFF then C := 0 else C := 1; reg := a
Dec reg, eaddr
C, V, Z, a
a := DM(eaddr)-1; if a=hFF then C := 0 else C := 1; reg := a
Decc reg1, reg2
C, V, Z, a
a := reg2-(1-C); if a=hFF and C=0 then C := 0 else C := 1; reg1 := a
Decc reg
C, V, Z, a
a := reg-(1-C); if a=hFF and C=0 then C := 0 else C := 1; reg := a
Decc reg, eaddr
C, V, Z, a
a := DM(eaddr)-(1-C); if a=hFF and C=0 then C := 0 else C := 1; reg := a
And reg,#data[7:0]
-,-, Z, a
a := reg and data[7:0]; reg := a
And reg1, reg2, reg3
-,-, Z, a
a := reg2 and reg3; reg1 := a
And reg1, reg2
-,-, Z, a
a := reg1 and reg2; reg1 := a
And reg, eaddr
-,-, Z, a
a := reg and DM(eaddr); reg := a
Or reg,#data[7:0]
-,-, Z, a
a := reg or data[7:0]; reg := a
Or reg1, reg2, reg3
-,-, Z, a
a := reg2 or reg3; reg1 := a
Or reg1, reg2
-,-, Z, a
a := reg1 or reg2; reg1 := a
Or reg, eaddr
-,-, Z, a
a := reg or DM(eaddr); reg := a
Xor reg,#data[7:0]
-,-, Z, a
a := reg xor data[7:0]; reg := a
Xor reg1, reg2, reg3
-,-, Z, a
a := reg2 xor reg3; reg1 := a
Xor reg1, reg2
-,-, Z, a
a := reg1 xor reg2; reg1 := a
Xor reg, eaddr
-,-, Z, a
a := reg or DM(eaddr); reg := a
Add reg,#data[7:0]
C, V, Z, a
a := reg+data[7:0]; if overflow then C:=1 else C := 0; reg := a
Add reg1, reg2, reg3
C, V, Z, a
a := reg2+reg3; if overflow then C:=1 else C := 0; reg1 := a
Add reg1, reg2
C, V, Z, a
a := reg1+reg2; if overflow then C:=1 else C := 0; reg1 := a
Add reg, eaddr
C, V, Z, a
a := reg+DM(eaddr); if overflow then C:=1 else C := 0; reg := a
Addc reg,#data[7:0]
C, V, Z, a
a := reg+data[7:0]+C; if overflow then C:=1 else C := 0; reg := a
Addc reg1, reg2, reg3
C, V, Z, a
a := reg2+reg3+C; if overflow then C:=1 else C := 0; reg1 := a
Addc reg1, reg2
C, V, Z, a
a := reg1+reg2+C; if overflow then C:=1 else C := 0; reg1 := a
Addc reg, eaddr
C, V, Z, a
a := reg+DM(eaddr)+C; if overflow then C:=1 else C := 0; reg := a
Subd reg,#data[7:0]
C, V, Z, a
a := data[7:0]-reg; if underflow then C := 0 else C := 1; reg := a
Subd reg1, reg2, reg3
C, V, Z, a
a := reg2-reg3; if underflow then C := 0 else C := 1; reg1 := a
Subd reg1, reg2
C, V, Z, a
a := reg2-reg1; if underflow then C := 0 else C := 1; reg1 := a
Subd reg, eaddr
C, V, Z, a
a := DM(eaddr)-reg; if underflow then C := 0 else C := 1; reg := a
Subdc reg,#data[7:0]
C, V, Z, a
a := data[7:0]-reg-(1-C); if underflow then C := 0 else C := 1; reg := a
Subdc reg1, reg2, reg3
C, V, Z, a
a := reg2-reg3-(1-C); if underflow then C := 0 else C := 1; reg1 := a
Subdc reg1, reg2
C, V, Z, a
a := reg2-reg1-(1-C); if underflow then C := 0 else C := 1; reg1 := a
Subdc reg, eaddr
C, V, Z, a
a := DM(eaddr)-reg-(1-C); if underflow then C := 0 else C := 1; reg := a
Subs reg,#data[7:0]
C, V, Z, a
a := reg-data[7:0]; if underflow then C := 0 else C := 1; reg := a
Subs reg1, reg2, reg3
C, V, Z, a
a := reg3-reg2; if underflow then C := 0 else C := 1; reg1 := a
Subs reg1, reg2
C, V, Z, a
a := reg1-reg2; if underflow then C := 0 else C := 1; reg1 := a
Subs reg, eaddr
C, V, Z, a
a := reg-DM(eaddr); if underflow then C := 0 else C := 1; reg := a
Subsc reg,#data[7:0]
C, V, Z, a
a := reg-data[7:0]-(1-C); if underflow then C := 0 else C := 1; reg := a
Subsc reg1, reg2, reg3
C, V, Z, a
a := reg3-reg2-(1-C); if underflow then C := 0 else C := 1; reg1 := a
Subsc reg1, reg2
C, V, Z, a
a := reg1-reg2-(1-C); if underflow then C := 0 else C := 1; reg1 := a
Subsc reg, eaddr
C, V, Z, a
a := reg-DM(eaddr)-(1-C); if underflow then C := 0 else C := 1; reg := a
Mul reg,#data[7:0]
u, u, u, a
a := (data[7:0]*reg)[7:0]; reg := (data[7:0]*reg)[15:8]
Mul reg1, reg2, reg3
u, u, u, a
a := (reg2*reg3)[7:0]; reg1 := (reg2*reg3)[15:8]
Mul reg1, reg2
u, u, u, a
a := (reg2*reg1)[7:0]; reg1 := (reg2*reg1)[15:8]
Mul reg, eaddr
u, u, u, a
a := (DM(eaddr)*reg)[7:0]; reg := (DM(eaddr)*reg)[15:8]
Mula reg,#data[7:0]
u, u, u, a
a := (data[7:0]*reg)[7:0]; reg := (data[7:0]*reg)[15:8]
Mula reg1, reg2, reg3
u, u, u, a
a := (reg2*reg3)[7:0]; reg1 := (reg2*reg3)[15:8]
Mula reg1, reg2
u, u, u, a
a := (reg2*reg1)[7:0]; reg1 := (reg2*reg1)[15:8]
Mula reg, eaddr
u, u, u, a
a := (DM(eaddr)*reg)[7:0]; reg := (DM(eaddr)*reg)[15:8]
Mshl reg,#shift[2:0]
u, u, u, a
a := (reg*2
shift)[7:0]; reg := (reg*2shift)[15:8]
Mshr reg,#shift[2:0]
u, u, u, a
a := (reg*2
(8-shift)[7:0]; reg := (reg*2(8-shift)[15:8]
Mshra reg,#shift[2:0]
u, u, u, a*
a := (reg*2
(8-shift)[7:0]; reg := (reg*2(8-shift)[15:8]
Cmp reg,#data[7:0]
C, V, Z, a
a := data[7:0]-reg; if underflow then C :=0 else C:=1; V := C and (not Z)
Cmp reg1, reg2
C, V, Z, a
a := reg2-reg1; if underflow then C :=0 else C:=1; V := C and (not Z)
Cmp reg, eaddr
C, V, Z, a
a := DM(eaddr)-reg; if underflow then C :=0 else C:=1; V := C and (not Z)
Cmpa reg,#data[7:0]
C, V, Z, a
a := data[7:0]-reg; if underflow then C :=0 else C:=1; V := C and (not Z)
Cmpa reg1, reg2
C, V, Z, a
a := reg2-reg1; if underflow then C :=0 else C:=1; V := C and (not Z)
Cmpa reg, eaddr
C, V, Z, a
a := DM(eaddr)-reg; if underflow then C :=0 else C:=1; V := C and (not Z)
Tstb reg,#bit[2:0]
-, -, Z, a
a[bit] := reg[bit]; other bits in a are 0
Setb reg,#bit[2:0]
-, -, Z, a
reg[bit] := 1; other bits unchanged; a := reg
Clrb reg,#bit[2:0]
-, -, Z, a
reg[bit] := 0; other bits unchanged; a := reg
Invb reg,#bit[2:0]
-, -, Z, a
reg[bit] := not reg[bit]; other bits unchanged; a := reg
Not
Recommended
for
New
Designs
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