ARM Ltd.
ARM
ARMCM3xxx
ARMCM3
1.2
ARM 32-bit Cortex-M3 Microcontroller based device, CPU clock up to 80MHz, etc.
ARM Limited (ARM) is supplying this software for use with Cortex-M\n
processor based microcontroller, but can be equally used for other\n
suitable processor architectures. This file can be freely distributed.\n
Modifications to this file shall be clearly marked.\n
\n
THIS SOFTWARE IS PROVIDED "AS IS". NO WARRANTIES, WHETHER EXPRESS, IMPLIED\n
OR STATUTORY, INCLUDING, BUT NOT LIMITED TO, IMPLIED WARRANTIES OF\n
MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE APPLY TO THIS SOFTWARE.\n
ARM SHALL NOT, IN ANY CIRCUMSTANCES, BE LIABLE FOR SPECIAL, INCIDENTAL, OR\n
CONSEQUENTIAL DAMAGES, FOR ANY REASON WHATSOEVER.
CM3
r1p0
little
true
false
3
false
8
32
32
read-write
0x00000000
0xFFFFFFFF
TIMER0
1.0
32 Timer / Counter, counting up or down from different sources
TIMER
0x40010000
32
read-write
0
0x100
registers
TIMER0
0
CR
Control Register
0x00
32
read-write
0x00000000
0x1337F7F
EN
Enable
[0:0]
read-write
Disable
Timer is disabled and does not operate
0
Enable
Timer is enabled and can operate
1
RST
Reset Timer
[1:1]
write-only
Reserved
Write as ZERO if necessary
0
Reset_Timer
Reset the Timer
1
CNT
Counting direction
[3:2]
read-write
Count_UP
Timer Counts UO and wraps, if no STOP condition is set
0
Count_DOWN
Timer Counts DOWN and wraps, if no STOP condition is set
1
Toggle
Timer Counts up to MAX, then DOWN to ZERO, if no STOP condition is set
2
MODE
Operation Mode
[6:4]
read-write
Continous
Timer runs continously
0
Single_ZERO_MAX
Timer counts to 0x00 or 0xFFFFFFFF (depending on CNT) and stops
1
Single_MATCH
Timer counts to the Value of MATCH Register and stops
2
Reload_ZERO_MAX
Timer counts to 0x00 or 0xFFFFFFFF (depending on CNT), loads the RELOAD Value and continues
3
Reload_MATCH
Timer counts to the Value of MATCH Register, loads the RELOAD Value and continues
4
PSC
Use Prescaler
[7:7]
read-write
Disabled
Prescaler is not used
0
Enabled
Prescaler is used as divider
1
CNTSRC
Timer / Counter Source Divider
[11:8]
read-write
CAP_SRC
Capture Source is used directly
0
CAP_SRC_div2
Capture Source is divided by 2
1
CAP_SRC_div4
Capture Source is divided by 4
2
CAP_SRC_div8
Capture Source is divided by 8
3
CAP_SRC_div16
Capture Source is divided by 16
4
CAP_SRC_div32
Capture Source is divided by 32
5
CAP_SRC_div64
Capture Source is divided by 64
6
CAP_SRC_div128
Capture Source is divided by 128
7
CAP_SRC_div256
Capture Source is divided by 256
8
CAPSRC
Timer / Counter Capture Source
[15:12]
read-write
CClk
Core Clock
0
GPIOA_0
GPIO A, PIN 0
1
GPIOA_1
GPIO A, PIN 1
2
GPIOA_2
GPIO A, PIN 2
3
GPIOA_3
GPIO A, PIN 3
4
GPIOA_4
GPIO A, PIN 4
5
GPIOA_5
GPIO A, PIN 5
6
GPIOA_6
GPIO A, PIN 6
7
GPIOA_7
GPIO A, PIN 7
8
GPIOB_0
GPIO B, PIN 0
9
GPIOB_1
GPIO B, PIN 1
10
GPIOB_2
GPIO B, PIN 2
11
GPIOB_3
GPIO B, PIN 3
12
GPIOC_0
GPIO C, PIN 0
13
GPIOC_5
GPIO C, PIN 1
14
GPIOC_6
GPIO C, PIN 2
15
CAPEDGE
Capture Edge, select which Edge should result in a counter increment or decrement
[17:16]
read-write
RISING
Only rising edges result in a counter increment or decrement
0
FALLING
Only falling edges result in a counter increment or decrement
1
BOTH
Rising and falling edges result in a counter increment or decrement
2
TRGEXT
Triggers an other Peripheral
[21:20]
read-write
NONE
No Trigger is emitted
0
DMA1
DMA Controller 1 is triggered, dependant on MODE
1
DMA2
DMA Controller 2 is triggered, dependant on MODE
2
UART
UART is triggered, dependant on MODE
3
RELOAD
Select RELOAD Register n to reload Timer on condition
[25:24]
read-write
RELOAD0
Selects Reload Register number 0
0
RELOAD1
Selects Reload Register number 1
1
RELOAD2
Selects Reload Register number 2
2
RELOAD3
Selects Reload Register number 3
3
IDR
Selects, if Reload Register number is incremented, decremented or not modified
[27:26]
read-write
KEEP
Reload Register number does not change automatically
0
INCREMENT
Reload Register number is incremented on each match
1
DECREMENT
Reload Register number is decremented on each match
2
S
Starts and Stops the Timer / Counter
[31:31]
read-write
STOP
Timer / Counter is stopped
0
START
Timer / Counter is started
1
SR
Status Register
0x04
16
read-write
0x00000000
0xD701
RUN
Shows if Timer is running or not
[0:0]
read-only
Stopped
Timer is not running
0
Running
Timer is running
1
MATCH
Shows if the MATCH was hit
[8:8]
read-write
No_Match
The MATCH condition was not hit
0
Match_Hit
The MATCH condition was hit
1
UN
Shows if an underflow occured. This flag is sticky
[9:9]
read-write
No_Underflow
No underflow occured since last clear
0
Underflow
A minimum of one underflow occured since last clear
1
OV
Shows if an overflow occured. This flag is sticky
[10:10]
read-write
No_Overflow
No overflow occured since last clear
0
Overflow_occured
A minimum of one overflow occured since last clear
1
RST
Shows if Timer is in RESET state
[12:12]
read-only
Ready
Timer is not in RESET state and can operate
0
In_Reset
Timer is in RESET state and can not operate
1
RELOAD
Shows the currently active RELOAD Register
[15:14]
read-only
RELOAD0
Reload Register number 0 is active
0
RELOAD1
Reload Register number 1 is active
1
RELOAD2
Reload Register number 2 is active
2
RELOAD3
Reload Register number 3 is active
3
INT
Interrupt Register
0x10
16
read-write
0x00000000
0x0771
EN
Interrupt Enable
[0:0]
read-write
Disabled
Timer does not generate Interrupts
0
Enable
Timer triggers the TIMERn Interrupt
1
MODE
Interrupt Mode, selects on which condition the Timer should generate an Interrupt
[6:4]
read-write
Match
Timer generates an Interrupt when the MATCH condition is hit
0
Underflow
Timer generates an Interrupt when it underflows
1
Overflow
Timer generates an Interrupt when it overflows
2
COUNT
The Counter Register reflects the actual Value of the Timer/Counter
0x20
32
read-write
0x00000000
0xFFFFFFFF
MATCH
The Match Register stores the compare Value for the MATCH condition
0x24
32
read-write
0x00000000
0xFFFFFFFF
PRESCALE_RD
The Prescale Register stores the Value for the prescaler. The cont event gets divided by this value
0x28
32
read-only
0x00000000
0xFFFFFFFF
PRESCALE_WR
The Prescale Register stores the Value for the prescaler. The cont event gets divided by this value
0x28
32
write-only
0x00000000
0xFFFFFFFF
4
4
0,1,2,3
RELOAD[%s]
The Reload Register stores the Value the COUNT Register gets reloaded on a when a condition was met.
0x50
32
read-write
0x00000000
0xFFFFFFFF
TIMER1
0x40010100
TIMER1
4
TIMER2
0x40010200
TIMER2
6