Need AVR Help

Adam · 05-20-2009

Our micro-process teacher gave us a few questions to answer.
I only have 3 left that I can't find the answers on the internet to.
Can someone help me out.

1. What is the status register used for?

2. How many milliampere can an AVR-processor port handle when draining or sourcing?

3. In what categories are instructions to an AVR-processor divided?

**Kingroudy** · 05-20-2009

1- i didn't study AVR, but i can answer the first question since i have experience in PIC processors, the status register has the size of any other register, and where every bit represent an ALU status (or memory bank if it exists in AVR)
some of the bits are
C: carry bit, set to one when the ALU operation generates a carry
DC: digit carry.. same concept
Z: the Zero bit, if the result of an ALU operation is zero, this bit will be set.
(the Z bit is nothing but a NAND Gate)
OV bit: set to 1 when there is an overflow
N bit: set to 1 when a negative value is generated.

i was talking about the PIC, but the concept is the same. i suggest you download the datasheet of the AVR you are working on, and i will try to help you if you have a question.

Markouz · 05-20-2009

I had a project last semester in which we had to build a robot based on sensors. It was all programmed using AVR, and answering question number 2) it can handle 1 microAmpere (check out the datasheet of Atmega8 or PIC microcontrollers..)

Enjoy!

**Google** · 05-20-2009

Answering the left question, the third one. The AVR instructions are divided into:

Arithmetic:
ADD Rd, Rr
ADC Rd, Rr
ADIW Rd+1:Rd, K6
SUB Rd, Rr
SUBI Rd, K8
SBC Rd, Rr
SBCI Rd, K8
SBIW Rd+1:Rd, K6
INC Rd
DEC Rd
AND Rd, Rr
ANDI Rd, K8
OR Rd, Rr
ORI Rd, K8
EOR Rd, Rr

COM Rd
NEG Rd
CP Rd, Rr
CPC Rd, Rr
CPI Rd, K8
SWAP Rd
LSR Rd
ROR Rd
ASR Rd

MUL Rd, Rr
MULS Rd, Rr
MULSU Rd, Rr
FMUL Rd, Rr
FMULS Rd, Rr
FMULSU Rd, Rr

Bit and others:
BSET s
BCLR s
SBI A, b
CBI A, b
BST Rd, b
BLD Rd, b
NOP
BREAK
SLEEP
WDR

Transfer:
MOV Rd, Rr
MOVW Rd+1:Rd, Rr+1:Rr
IN Rd, A
OUT A, Rr
PUSH Rr
POP Rr
LDI Rd, K8
LDS Rd, K16
LD Rd, X
LD Rd, -X
LD Rd, X+
LDD Rd, Y+K6
LD Rd, -Y
LD Rd, Y+
LDD Rd, Z+K6
LD Rd, -Z
LD Rd, Z+
STS K16, Rr
ST X, Rr
ST -X, Rr
ST X+, Rr
STD Y+K6, Rr
ST -Y, Rr
ST Y+, Rr
STD Z+K6, Rr
ST -Z, Rr
ST Z+, Rr
LPM
LPM Rd, Z
LPM Rd, Z+
ELPM
ELPM Rd, Z
ELPM Rd, Z+
SPM

Jump:
RJMP K12
IJMP
EIJMP
JMP K22

Branch:
CPSE Rd, Rr
SBRC Rr, b
SBRS Rr, b
SBIC A, b
SBIS A, b
BRBC s, K7
BRBS s, K

Call:
RCALL K12
ICALL
EICALL
CALL K22
RET
RETI

As for the status register. It is also called "Flag register". It contains the current state of the processor. I think that all the architectures have the same BASIC flags. On the x86 architecture, the flags are:

FLAGS
0- Carry flag
1- Reserved
2- Parity flag
3- Reserved
4- Adjust flag
5- Reserved
6- Zero flag
7- Sign flag
8- Trap flag
9- Interrupt enable flag
10- Direction flag
11- Overflow flag
12,13- I/O Privilege level
14- Nested task flag
15- Reserved

EFLAGS
16- Resume flag
17- Virtual 8086 mode
18- Alignment check
19- Virtual interrupt flag
20- Virtual interrupt pending
21- Identification
22- Reserved
23- Reserved
24- Reserved
25- Reserved
26- Reserved
27- Reserved
28- Reserved
29- Reserved
30- Reserved
31- Reserved

RFLAGS
32-63- Reserved

Notice the 16-32-64 bit.

Adam · 05-20-2009

Thanks, you guys are lifesavers

Only one month left in school and I've got way too much work stacked up that needs to be finished, glad I don't have to spend an other hour searching Google for these answers (maybe I should've paid attention in class

)

05-20-2009	#1
Adam Registered Member Last Online: 06-03-2013 Join Date: Feb 2008 Posts: 1,410 Thanks: 1,444 Thanked 1,235 Times in 689 Posts Groans: 25 Groaned at 21 Times in 19 Posts	Need AVR Help Our micro-process teacher gave us a few questions to answer. I only have 3 left that I can't find the answers on the internet to. Can someone help me out. 1. What is the status register used for? 2. How many milliampere can an AVR-processor port handle when draining or sourcing? 3. In what categories are instructions to an AVR-processor divided?

05-20-2009	#2
Kingroudy Super Moderator Last Online: 02-16-2022 Join Date: May 2006 Posts: 5,580 Thanks: 1,888 Thanked 2,653 Times in 1,593 Posts Groans: 55 Groaned at 35 Times in 32 Posts	1- i didn't study AVR, but i can answer the first question since i have experience in PIC processors, the status register has the size of any other register, and where every bit represent an ALU status (or memory bank if it exists in AVR) some of the bits are C: carry bit, set to one when the ALU operation generates a carry DC: digit carry.. same concept Z: the Zero bit, if the result of an ALU operation is zero, this bit will be set. (the Z bit is nothing but a NAND Gate) OV bit: set to 1 when there is an overflow N bit: set to 1 when a negative value is generated. i was talking about the PIC, but the concept is the same. i suggest you download the datasheet of the AVR you are working on, and i will try to help you if you have a question. __________________ click on 'Groan' to switch to my left testicle.

05-20-2009	#3
Markouz Registered Member Last Online: 07-24-2012 Join Date: Sep 2007 Posts: 70 Thanks: 22 Thanked 51 Times in 29 Posts Groans: 0 Groaned at 0 Times in 0 Posts	I had a project last semester in which we had to build a robot based on sensors. It was all programmed using AVR, and answering question number 2) it can handle 1 microAmpere (check out the datasheet of Atmega8 or PIC microcontrollers..) Enjoy!

05-20-2009	#4
Google Last Online: 05-30-2013 Join Date: Jan 2008 Posts: 1,788 Thanks: 10,018 Thanked 1,100 Times in 651 Posts Groans: 1 Groaned at 6 Times in 6 Posts	Answering the left question, the third one. The AVR instructions are divided into: Arithmetic: ADD Rd, Rr ADC Rd, Rr ADIW Rd+1:Rd, K6 SUB Rd, Rr SUBI Rd, K8 SBC Rd, Rr SBCI Rd, K8 SBIW Rd+1:Rd, K6 INC Rd DEC Rd AND Rd, Rr ANDI Rd, K8 OR Rd, Rr ORI Rd, K8 EOR Rd, Rr COM Rd NEG Rd CP Rd, Rr CPC Rd, Rr CPI Rd, K8 SWAP Rd LSR Rd ROR Rd ASR Rd MUL Rd, Rr MULS Rd, Rr MULSU Rd, Rr FMUL Rd, Rr FMULS Rd, Rr FMULSU Rd, Rr Bit and others: BSET s BCLR s SBI A, b CBI A, b BST Rd, b BLD Rd, b NOP BREAK SLEEP WDR Transfer: MOV Rd, Rr MOVW Rd+1:Rd, Rr+1:Rr IN Rd, A OUT A, Rr PUSH Rr POP Rr LDI Rd, K8 LDS Rd, K16 LD Rd, X LD Rd, -X LD Rd, X+ LDD Rd, Y+K6 LD Rd, -Y LD Rd, Y+ LDD Rd, Z+K6 LD Rd, -Z LD Rd, Z+ STS K16, Rr ST X, Rr ST -X, Rr ST X+, Rr STD Y+K6, Rr ST -Y, Rr ST Y+, Rr STD Z+K6, Rr ST -Z, Rr ST Z+, Rr LPM LPM Rd, Z LPM Rd, Z+ ELPM ELPM Rd, Z ELPM Rd, Z+ SPM Jump: RJMP K12 IJMP EIJMP JMP K22 Branch: CPSE Rd, Rr SBRC Rr, b SBRS Rr, b SBIC A, b SBIS A, b BRBC s, K7 BRBS s, K Call: RCALL K12 ICALL EICALL CALL K22 RET RETI As for the status register. It is also called "Flag register". It contains the current state of the processor. I think that all the architectures have the same BASIC flags. On the x86 architecture, the flags are: FLAGS 0- Carry flag 1- Reserved 2- Parity flag 3- Reserved 4- Adjust flag 5- Reserved 6- Zero flag 7- Sign flag 8- Trap flag 9- Interrupt enable flag 10- Direction flag 11- Overflow flag 12,13- I/O Privilege level 14- Nested task flag 15- Reserved EFLAGS 16- Resume flag 17- Virtual 8086 mode 18- Alignment check 19- Virtual interrupt flag 20- Virtual interrupt pending 21- Identification 22- Reserved 23- Reserved 24- Reserved 25- Reserved 26- Reserved 27- Reserved 28- Reserved 29- Reserved 30- Reserved 31- Reserved RFLAGS 32-63- Reserved Notice the 16-32-64 bit.

05-20-2009	#5
Adam Registered Member Last Online: 06-03-2013 Join Date: Feb 2008 Posts: 1,410 Thanks: 1,444 Thanked 1,235 Times in 689 Posts Groans: 25 Groaned at 21 Times in 19 Posts	Thanks, you guys are lifesavers Only one month left in school and I've got way too much work stacked up that needs to be finished, glad I don't have to spend an other hour searching Google for these answers (maybe I should've paid attention in class )

Currently Active Users Viewing This Thread: 1 (0 members and 1 guests)