XE8801AMI000WP Semtech, XE8801AMI000WP Datasheet - Page 22
XE8801AMI000WP
Manufacturer Part Number
XE8801AMI000WP
Description
SENSING MACHINE WITH 16 + 10 BIT
Manufacturer
Semtech
Datasheet
1.XE8801AMI027LF.pdf
(135 pages)
Specifications of XE8801AMI000WP
Applications
Sensing Machine
Core Processor
RISC
Program Memory Type
FLASH (22 kB)
Controller Series
XE8000
Ram Size
512 x 8
Interface
UART, USRT
Number Of I /o
24
Voltage - Supply
2.4 V ~ 5.5 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
Die
For Use With
XE8000MP - PROG BOARD AND PROSTART2 CARD
Other names
Q2722595
Dec reg1,
Dec
Dec reg,
Decc reg1,
Decc
Decc reg,
And reg,#data[7:0]
And reg1, reg2,
And reg1,
And reg,
Or reg,#data[7:0]
Or reg1, reg2,
Or reg1,
Or reg,
Xor reg,#data[7:0]
Xor reg1, reg2,
Xor reg1,
Xor reg,
Add reg,#data[7:0]
Add reg1, reg2,
Add reg1,
Add reg,
Addc reg,#data[7:0]
Addc reg1, reg2,
Addc reg1,
Addc reg,
Subd reg,#data[7:0]
Subd reg1, reg2,
Subd reg1,
Subd reg,
Subdc reg,#data[7:0]
Subdc reg1, reg2,
Subdc reg1,
Subdc reg,
Subs reg,#data[7:0]
Subs reg1, reg2,
Subs reg1,
Subs reg,
Subsc reg,#data[7:0]
Subsc reg1, reg2,
Subsc reg1,
Subsc reg,
Mul reg,#data[7:0]
Mul reg1, reg2,
Mul reg1,
Mul reg,
Mula reg,#data[7:0]
Mula reg1, reg2,
Mula reg1,
Mula reg,
Mshl reg,#shift[2:0]
Mshr reg,#shift[2:0]
Mshra reg,#shift[2:0]
Cmp reg,#data[7:0]
Cmp reg1,
Cmp reg,
Cmpa reg,#data[7:0]
Cmpa reg1,
Cmpa reg,
Tstb reg,#bit[2:0]
Setb reg,#bit[2:0]
Clrb reg,#bit[2:0]
Invb reg,#bit[2:0]
© Semtech 2005
reg
reg
eaddr
reg2
eaddr
eaddr
eaddr
eaddr
eaddr
reg2
eaddr
reg2
eaddr
reg2
eaddr
reg2
reg2
eaddr
eaddr
eaddr
reg2
eaddr
reg2
reg2
reg2
reg2
eaddr
reg2
eaddr
reg2
reg2
reg2
reg3
reg3
reg3
reg3
reg3
reg3
reg3
reg3
reg3
reg3
reg3
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
-,-, Z, a
-,-, Z, a
-,-, Z, a
-,-, Z, a
-,-, Z, a
-,-, Z, a
-,-, Z, a
-,-, Z, a
-,-, Z, a
-,-, Z, a
-,-, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
u, u, u, a
u, u, u, a
u, u, u, a
u, u, u, a
u, u, u, a
u, u, u, a
u, u, u, a
u, u, u, a
u, u, u, a
u, u, u, a
u, u, u, a*
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
C, V, Z, a
-, -, Z, a
-, -, Z, a
-, -, Z, a
-, -, Z, a
-,-, Z, a
a := reg2-1; if a=hFF then C := 0 else C := 1;
a := reg-1; if a=hFF then C := 0 else C := 1;
a := DM(eaddr)-1; if a=hFF then C := 0 else C := 1;
a := reg2-(1-C); if a=hFF and C=0 then C := 0 else C := 1;
a := reg-(1-C); if a=hFF and C=0 then C := 0 else C := 1;
a := DM(eaddr)-(1-C); if a=hFF and C=0 then C := 0 else C := 1;
a :=
a :=
a :=
a :=
a :=
a :=
a :=
a :=
a :=
a :=
a :=
a :=
a := reg+data[7:0]; if overflow then C:=1 else C := 0;
a := reg2+reg3; if overflow then C:=1 else C := 0;
a := reg1+reg2; if overflow then C:=1 else C := 0;
a := reg+DM(eaddr); if overflow then C:=1 else C := 0;
a := reg+data[7:0]+C; if overflow then C:=1 else C := 0;
a := reg2+reg3+C; if overflow then C:=1 else C := 0;
a := reg1+reg2+C; if overflow then C:=1 else C := 0;
a := reg+DM(eaddr)+C; if overflow then C:=1 else C := 0;
a := data[7:0]-reg; if underflow then C := 0 else C := 1;
a := reg2-reg3; if underflow then C := 0 else C := 1;
a := reg2-reg1; if underflow then C := 0 else C := 1;
a := DM(eaddr)-reg; if underflow then C := 0 else C := 1;
a := data[7:0]-reg-(1-C); if underflow then C := 0 else C := 1;
a := reg2-reg3-(1-C); if underflow then C := 0 else C := 1;
a := reg2-reg1-(1-C); if underflow then C := 0 else C := 1;
a := DM(eaddr)-reg-(1-C); if underflow then C := 0 else C := 1;
a := reg-data[7:0]; if underflow then C := 0 else C := 1;
a := reg3-reg2; if underflow then C := 0 else C := 1;
a := reg1-reg2; if underflow then C := 0 else C := 1;
a := reg-DM(eaddr); if underflow then C := 0 else C := 1;
a := reg-data[7:0]-(1-C); if underflow then C := 0 else C := 1;
a := reg3-reg2-(1-C); if underflow then C := 0 else C := 1;
a := reg1-reg2-(1-C); if underflow then C := 0 else C := 1;
a := reg-DM(eaddr)-(1-C); if underflow then C := 0 else C := 1;
a := (data[7:0]*reg)[7:0];
a := (reg2*reg3)[7:0];
a := (reg2*reg1)[7:0];
a := (DM(eaddr)*reg)[7:0];
a := (data[7:0]*reg)[7:0];
a := (reg2*reg3)[7:0];
a := (reg2*reg1)[7:0];
a := (DM(eaddr)*reg)[7:0];
a := (reg*2
a := (reg*2
a := (reg*2
a := data[7:0]-reg; if underflow then C :=0 else C:=1; V := C and (not Z)
a := reg2-reg1; if underflow then C :=0 else C:=1; V := C and (not Z)
a := DM(eaddr)-reg; if underflow then C :=0 else C:=1; V := C and (not Z)
a := data[7:0]-reg; if underflow then C :=0 else C:=1; V := C and (not Z)
a := reg2-reg1; if underflow then C :=0 else C:=1; V := C and (not Z)
a := DM(eaddr)-reg; if underflow then C :=0 else C:=1; V := C and (not Z)
a[bit] := reg[bit]; other bits in a are 0
reg[bit]
reg[bit]
reg[bit]
reg
reg2
reg1
reg
reg
reg2
reg1
reg
reg
reg2
reg1
reg
:= 1; other bits unchanged; a :=
:= 0; other bits unchanged; a :=
:= not reg[bit]; other bits unchanged; a :=
and data[7:0];
and DM(eaddr);
or data[7:0];
or DM(eaddr);
xor data[7:0];
or DM(eaddr);
and reg3;
and reg2;
or reg3;
or reg2;
xor reg3;
xor reg2;
shift
(8-shift
(8-shift
)[7:0];
)[7:0];
)[7:0];
reg1
reg1
reg1
reg1
reg
reg1
reg1
3-5
reg
reg
reg
reg1
reg1
reg1
reg1
reg
reg
reg
reg
:= a
:= a
:= (reg*2
:= a
:= a
reg
reg
reg
:= a
:= a
:= a
:= (reg*2
:= (reg*2
:= a
reg
reg
:= a
:= (reg2*reg3)[15:8]
:= (reg2*reg1)[15:8]
:= (reg2*reg3)[15:8]
:= (reg2*reg1)[15:8]
:= a
:= a
:= (data[7:0]*reg)[15:8]
:= (data[7:0]*reg)[15:8]
:= a
:= (DM(eaddr)*reg)[15:8]
:= (DM(eaddr)*reg)[15:8]
shift
(8-shift
(8-shift
)[15:8]
)[15:8]
)[15:8]
reg
reg
reg
reg1
:= a
reg
reg1
reg1
:= a
reg
reg1
reg1
reg1
reg1
reg
reg1
reg1
reg
reg
reg
:= a
:= a
XE8801A – SX8801R
:= a
reg
:= a
reg
reg
:= a
:= a
:= a
:= a
reg
reg
reg1
reg1
reg1
reg1
:= a
:= a
reg1
:= a
:= a
:= a
:= a
:= a
reg
:= a
reg
:= a
:= a
:= a
:= a
reg
:= a
:= a
reg
:= a
:= a
:= a
reg
:= a
:= a
:= a
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