XE8805AMI028LF Semtech, XE8805AMI028LF Datasheet - Page 21

XE8805AMI028LF

Manufacturer Part Number

XE8805AMI028LF

Description

IC DAS 16BIT FLASH 8K MTP 64LQFP

Manufacturer

Semtech

Datasheet

1.XE8805AMI028LF.pdf (156 pages)

Specifications of XE8805AMI028LF

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

Voltage - Supply

2.4 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

64-LQFP

Supply Voltage Range

2.4V To 5.5V

Operating Temperature Range

-40Â°C To +85Â°C

Digital Ic Case Style

LQFP

No. Of Pins

For Use With

XE8000MP - PROG BOARD AND PROSTART2 CARD

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

XE8805AMI028LF

Manufacturer:

Semtech

Quantity:

10 000

Company:

Meier Automation Equipment Co., Limited

Part Number:

XE8805AMI028LF

Manufacturer:

SEMTECH/美国升特

Quantity:

20 000

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3.3

Table 3-4 shows a short description of the different instructions available on the Coolrisc816. The notation

conditional jump instruction refers to the condition description as given in Table 3-6. The notation

reg3

extended address modes as defined in Table 3-5. The notation DM(xxx) refers to the data memory location with

address xxx.

Instruction

Jump addr[15:0]

Jump ip

Jcc

Call addr[15:0]

Call ip

Calls addr[15:0]

Calls ip

Ret

Rets

Reti

Push

Pop

Move reg,#data[7:0]

Move reg1,

Move reg,

Move eaddr,

Move addr[7:0],#data[7:0]

Cmvd reg1,

Cmvd reg,

Cmvs reg1,

Cmvs reg,

Shl reg1,

Shl

Shl reg,

Shlc reg1,

Shlc

Shlc reg,

Shr reg1,

Shr

Shr reg,

Shrc reg1,

Shrc

Shrc reg,

Shra reg1,

Shra

Shra reg,

Cpl1 reg1,

Cpl1

Cpl1 reg,

Cpl2 reg1,

Cpl2

Cpl2 reg,

Cpl2c reg1,

Cpl2c

Cpl2c reg,

Inc reg1,

Inc

Inc reg,

Incc reg1,

Incc

Incc reg,

Dec reg1,

reg

addr[15:0]

reg

refers to one of the CPU internal registers of Table 3-1. The notation

reg

eaddr

reg2

eaddr

CPU instruction short reference

reg2

eaddr

reg2

eaddr

reg2

eaddr

reg2

eaddr

reg2

eaddr

reg2

eaddr

reg2

reg

Modification

-,-,-, -

-,-, Z, a

-,-,-, -

-,-, Z, a

C, V, Z, a

-,-, Z, a

C, V, Z, a

-,-,-, -

Operation

PC := addr[15:0]

PC := ip

ip := PC+1; PC := addr[15:0]

ip := PC+1; PC := ip

PC := ST

PC := ip

PC := ST

PC := PC+1; ST

PC := PC+1; ip := ST

a := data[7:0];

a := reg2;

a := DM(eaddr);

DM(eaddr)

DM(addr[7:0]) := data[7:0]

a := reg2; if C=0 then

a := DM(eaddr); if C=0 then

a := reg2; if C=1 then

a := DM(eaddr); if C=1 then

a := reg2<<1; a[0] := 0; C := reg2[7];

a := reg<<1; a[0] := 0; C := reg[7];

a := DM(eaddr)<<1; a[0] :=0; C := DM(eaddr)[7];

a := reg2<<1; a[0] := C; C := reg2[7];

a := reg<<1; a[0] := C; C := reg[7];

a := DM(eaddr)<<1; a[0] := C; C := DM(eaddr)[7];

a := reg2>>1; a[7] := 0; C := reg2[0];

a := reg>>1; a[7] := 0; C := reg[0];

a := DM(eaddr)>>1; a[7] := 0; C := DM(eaddr)[0];

a := reg2>>1; a[7] := C; C := reg2[0];

a := reg>>1; a[7] := C; C := reg[0];

a := DM(eaddr)>>1; a[7] := C; C := DM(eaddr)[0];

a := reg2>>1; a[7] := reg2[7]; C := reg2[0];

a := reg>>1; a[7] := reg[7]; C := reg[0];

a := DM(eaddr)>>1; a[7] := DM(eaddr)[7]; C := DM(eaddr)[0];

a := NOT(reg2);

a := NOT(reg);

a := NOT(DM(eaddr));

a := NOT(reg2)+1; if a=0 then C:=1 else C := 0;

a := NOT(reg)+1; if a=0 then C:=1 else C := 0;

a := NOT(DM(eaddr))+1; if a=0 then C:=1 else C := 0;

a := NOT(reg2)+C; if a=0 and C=1 then C:=1 else C := 0;

a := NOT(reg)+C; if a=0 and C=1 then C:=1 else C := 0;

a := NOT(DM(eaddr))+C; if a=0 and C=1 then C:=1 else C := 0;

a := reg2+1; if a=0 then C := 1 else C := 0;

a := reg+1; if a=0 then C := 1 else C := 0;

a := DM(eaadr)+1; if a=0 then C := 1 else C := 0;

a := reg2+C; if a=0 and C=1 then C := 1 else C := 0;

a := reg+C; if a=0 and C=1 then C := 1 else C := 0;

a := DM(eaadr)+C; if a=0 and C=1 then C := 1 else C := 0;

a := reg2-1; if a=hFF then C := 0 else C := 1;

n+1

is true then PC := addr[15:0]

is true then PC := ip

:= ST

; ST

reg1

(n>1); ST

reg

:= ST

n+1

reg1

reg

reg2

:= data[7:0]

:= ST

:= a

3-4

n+1

:= a

reg1

; ST

reg

DM(eaddr)

:= PC+1; PC := addr[15:0]

:= PC+1; PC := ip

(n>1)

(n>1); GIE :=1

(n>1); ST

:= a

:= a;

:= ST

reg

:= a

n+1

reg

(n>1)

reg1

:= ip

reg1

:= a

reg

:= a

:=a

:= a

reg1

:= a

reg1

eaddr

reg1

:= a

reg

:= a

reg1

:= a

reg

:= a

reg

and

:= a

reg1

:= a

reg

:= a

reg

DM(eaddr)

reg1

:= a

reg

:= a

reg

:= a

reg

:= a

XE8805/05A

:= a

refer to one of the

reg, reg1, reg2,

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XE8805AMI028LF Semtech, XE8805AMI028LF Datasheet - Page 21

XE8805AMI028LF

Specifications of XE8805AMI028LF

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