M480 BSP V3.05.005
The Board Support Package for M480 Series
Data Fields
ECAP_T Struct Reference

#include <ecap_reg.h>

Data Fields

__IO uint32_t CNT
 
__IO uint32_t HLD0
 
__IO uint32_t HLD1
 
__IO uint32_t HLD2
 
__IO uint32_t CNTCMP
 
__IO uint32_t CTL0
 
__IO uint32_t CTL1
 
__IO uint32_t STATUS
 

Detailed Description

@addtogroup ECAP Enhanced Input Capture Timer(ECAP)
Memory Mapped Structure for ECAP Controller

Definition at line 26 of file ecap_reg.h.

Field Documentation

◆ CNT

ECAP_T::CNT

[0x0000] Input Capture Counter

CNT

Offset: 0x00 Input Capture Counter (24-bit up counter)

BitsFieldDescriptions
[23:0]CNT
Input Capture Timer/Counter
The input Capture Timer/Counter is a 24-bit up-counting counter
The clock source for the counter is from the clock divider

Definition at line 516 of file ecap_reg.h.

◆ CNTCMP

ECAP_T::CNTCMP

[0x0010] Input Capture Compare Register

CNTCMP

Offset: 0x10 Input Capture Compare Register

BitsFieldDescriptions
[23:0]CNTCMP
Input Capture Counter Compare Register
If the compare function is enabled (CMPEN = 1), this register (ECAP_CNTCMP) is used to compare with the capture counter (ECAP_CNT).
If the reload control is enabled (RLDEN[n] = 1, n=0~3), an overflow event or capture events will trigger the hardware to load the value of this register (ECAP_CNTCMP) into ECAP_CNT.

Definition at line 520 of file ecap_reg.h.

◆ CTL0

ECAP_T::CTL0

[0x0014] Input Capture Control Register 0

CTL0

Offset: 0x14 Input Capture Control Register 0

BitsFieldDescriptions
[2:0]NFCLKSEL
Noise Filter Clock Pre-divide Selection
To determine the sampling frequency of the Noise Filter clock
000 = CAP_CLK.
001 = CAP_CLK/2.
010 = CAP_CLK/4.
011 = CAP_CLK/16.
100 = CAP_CLK/32.
101 = CAP_CLK/64.
[3]CAPNFDIS
Input Capture Noise Filter Disable Control
0 = Noise filter of Input Capture Enabled.
1 = Noise filter of Input Capture Disabled (Bypass).
[4]IC0EN
Port Pin IC0 Input to Input Capture Unit Enable Control
0 = IC0 input to Input Capture Unit Disabled.
1 = IC0 input to Input Capture Unit Enabled.
[5]IC1EN
Port Pin IC1 Input to Input Capture Unit Enable Control
0 = IC1 input to Input Capture Unit Disabled.
1 = IC1 input to Input Capture Unit Enabled.
[6]IC2EN
Port Pin IC2 Input to Input Capture Unit Enable Control
0 = IC2 input to Input Capture Unit Disabled.
1 = IC2 input to Input Capture Unit Enabled.
[9:8]CAPSEL0
CAP0 Input Source Selection
00 = CAP0 input is from port pin ICAP0.
01 = Reserved.
10 = CAP0 input is from signal CHA of QEI controller unit n.
11 = Reserved.
Note: Input capture unit n matches QEIn, where n = 0~1.
[11:10]CAPSEL1
CAP1 Input Source Selection
00 = CAP1 input is from port pin ICAP1.
01 = Reserved.
10 = CAP1 input is from signal CHB of QEI controller unit n.
11 = Reserved.
Note: Input capture unit n matches QEIn, where n = 0~1.
[13:12]CAPSEL2
CAP2 Input Source Selection
00 = CAP2 input is from port pin ICAP2.
01 = Reserved.
10 = CAP2 input is from signal CHX of QEI controller unit n.
11 = Reserved.
Note: Input capture unit n matches QEIn, where n = 0~1.
[16]CAPIEN0
Input Capture Channel 0 Interrupt Enable Control
0 = The flag CAPTF0 can trigger Input Capture interrupt Disabled.
1 = The flag CAPTF0 can trigger Input Capture interrupt Enabled.
[17]CAPIEN1
Input Capture Channel 1 Interrupt Enable Control
0 = The flag CAPTF1 can trigger Input Capture interrupt Disabled.
1 = The flag CAPTF1 can trigger Input Capture interrupt Enabled.
[18]CAPIEN2
Input Capture Channel 2 Interrupt Enable Control
0 = The flag CAPTF2 can trigger Input Capture interrupt Disabled.
1 = The flag CAPTF2 can trigger Input Capture interrupt Enabled.
[20]OVIEN
CAPOVF Trigger Input Capture Interrupt Enable Control
0 = The flag CAPOVF can trigger Input Capture interrupt Disabled.
1 = The flag CAPOVF can trigger Input Capture interrupt Enabled.
[21]CMPIEN
CAPCMPF Trigger Input Capture Interrupt Enable Control
0 = The flag CAPCMPF can trigger Input Capture interrupt Disabled.
1 = The flag CAPCMPF can trigger Input Capture interrupt Enabled.
[24]CNTEN
Input Capture Counter Start Counting Control
Setting this bit to 1, the capture counter (ECAP_CNT) starts up-counting synchronously with the clock from the .
0 = ECAP_CNT stop counting.
1 = ECAP_CNT starts up-counting.
[25]CMPCLREN
Input Capture Counter Cleared by Compare-match Control
If this bit is set to 1, the capture counter (ECAP_CNT) will be cleared to 0 when the compare-match event (CAPCMPF = 1) occurs.
0 = Compare-match event (CAPCMPF) can clear capture counter (ECAP_CNT) Disabled.
1 = Compare-match event (CAPCMPF) can clear capture counter (ECAP_CNT) Enabled.
[28]CMPEN
Compare Function Enable Control
The compare function in input capture timer/counter is to compare the dynamic counting ECAP_CNT with the compare register ECAP_CNTCMP, if ECAP_CNT value reaches ECAP_CNTCMP, the flag CAPCMPF will be set.
0 = The compare function Disabled.
1 = The compare function Enabled.
[29]CAPEN
Input Capture Timer/Counter Enable Control
0 = Input Capture function Disabled.
1 = Input Capture function Enabled.

Definition at line 521 of file ecap_reg.h.

◆ CTL1

ECAP_T::CTL1

[0x0018] Input Capture Control Register 1

CTL1

Offset: 0x18 Input Capture Control Register 1

BitsFieldDescriptions
[1:0]EDGESEL0
Channel 0 Captured Edge Selection
Input capture0 can detect falling edge change only, rising edge change only or both edge change
00 = Detect rising edge only.
01 = Detect falling edge only.
1x = Detect both rising and falling edge.
[3:2]EDGESEL1
Channel 1 Captured Edge Selection
Input capture1 can detect falling edge change only, rising edge change only or both edge change
00 = Detect rising edge only.
01 = Detect falling edge only.
1x = Detect both rising and falling edge.
[5:4]EDGESEL2
Channel 2 Captured Edge Selection
Input capture2 can detect falling edge change only, rising edge change only or both edge changes
00 = Detect rising edge only.
01 = Detect falling edge only.
1x = Detect both rising and falling edge.
[8]CAP0RLDEN
Capture Counteru2019s Reload Function Triggered by Event CAPTE0 Enable Bit
0 = The reload triggered by Event CAPTE0 Disabled.
1 = The reload triggered by Event CAPTE0 Enabled.
[9]CAP1RLDEN
Capture Counteru2019s Reload Function Triggered by Event CAPTE1 Enable Bit
0 = The reload triggered by Event CAPTE1 Disabled.
1 = The reload triggered by Event CAPTE1 Enabled.
[10]CAP2RLDEN
Capture Counteru2019s Reload Function Triggered by Event CAPTE2 Enable Bit
0 = The reload triggered by Event CAPTE2 Disabled.
1 = The reload triggered by Event CAPTE2 Enabled.
[11]OVRLDEN
Capture Counteru2019s Reload Function Triggered by Overflow Enable Bit
0 = The reload triggered by CAPOV Disabled.
1 = The reload triggered by CAPOV Enabled.
[14:12]CLKSEL
Capture Timer Clock Divide Selection
The capture timer clock has a pre-divider with eight divided options controlled by CLKSEL[2:0].
000 = CAP_CLK/1.
001 = CAP_CLK/4.
010 = CAP_CLK/16.
011 = CAP_CLK/32.
100 = CAP_CLK/64.
101 = CAP_CLK/96.
110 = CAP_CLK/112.
111 = CAP_CLK/128.
[17:16]CNTSRCSEL
Capture Timer/Counter Clock Source Selection
Select the capture timer/counter clock source.
00 = CAP_CLK (default).
01 = CAP0.
10 = CAP1.
11 = CAP2.
[20]CAP0CLREN
Capture Counter Cleared by Capture Event0 Control
0 = Event CAPTE0 can clear capture counter (ECAP_CNT) Disabled.
1 = Event CAPTE0 can clear capture counter (ECAP_CNT) Enabled.
[21]CAP1CLREN
Capture Counter Cleared by Capture Event1 Control
0 = Event CAPTE1 can clear capture counter (ECAP_CNT) Disabled.
1 = Event CAPTE1 can clear capture counter (ECAP_CNT) Enabled.
[22]CAP2CLREN
Capture Counter Cleared by Capture Event2 Control
0 = Event CAPTE2 can clear capture counter (ECAP_CNT) Disabled.
1 = Event CAPTE2 can clear capture counter (ECAP_CNT) Enabled.

Definition at line 522 of file ecap_reg.h.

◆ HLD0

ECAP_T::HLD0

[0x0004] Input Capture Hold Register 0

HLD0

Offset: 0x04 Input Capture Hold Register 0

BitsFieldDescriptions
[23:0]HOLD
Input Capture Counter Hold Register
When an active input capture channel detects a valid edge signal change, the ECAPCNT value is latched into the corresponding holding register
Each input channel has its own holding register named by ECAP_HLDx where x is from 0 to 2 to indicate inputs from IC0 to IC2, respectively.

Definition at line 517 of file ecap_reg.h.

◆ HLD1

ECAP_T::HLD1

[0x0008] Input Capture Hold Register 1

HLD1

Offset: 0x08 Input Capture Hold Register 1

BitsFieldDescriptions
[23:0]HOLD
Input Capture Counter Hold Register
When an active input capture channel detects a valid edge signal change, the ECAPCNT value is latched into the corresponding holding register
Each input channel has its own holding register named by ECAP_HLDx where x is from 0 to 2 to indicate inputs from IC0 to IC2, respectively.

Definition at line 518 of file ecap_reg.h.

◆ HLD2

ECAP_T::HLD2

[0x000c] Input Capture Hold Register 2

HLD2

Offset: 0x0C Input Capture Hold Register 2

BitsFieldDescriptions
[23:0]HOLD
Input Capture Counter Hold Register
When an active input capture channel detects a valid edge signal change, the ECAPCNT value is latched into the corresponding holding register
Each input channel has its own holding register named by ECAP_HLDx where x is from 0 to 2 to indicate inputs from IC0 to IC2, respectively.

Definition at line 519 of file ecap_reg.h.

◆ STATUS

ECAP_T::STATUS

[0x001c] Input Capture Status Register

STATUS

Offset: 0x1C Input Capture Status Register

BitsFieldDescriptions
[0]CAPTF0
Input Capture Channel 0 Triggered Flag
When the input capture channel 0 detects a valid edge change at CAP0 input, it will set flag CAPTF0 to high.
0 = No valid edge change has been detected at CAP0 input since last clear.
1 = At least a valid edge change has been detected at CAP0 input since last clear.
Note: This bit is only cleared by writing 1 to it.
[1]CAPTF1
Input Capture Channel 1 Triggered Flag
When the input capture channel 1 detects a valid edge change at CAP1 input, it will set flag CAPTF1 to high.
0 = No valid edge change has been detected at CAP1 input since last clear.
1 = At least a valid edge change has been detected at CAP1 input since last clear.
Note: This bit is only cleared by writing 1 to it.
[2]CAPTF2
Input Capture Channel 2 Triggered Flag
When the input capture channel 2 detects a valid edge change at CAP2 input, it will set flag CAPTF2 to high.
0 = No valid edge change has been detected at CAP2 input since last clear.
1 = At least a valid edge change has been detected at CAP2 input since last clear.
Note: This bit is only cleared by writing 1 to it.
[4]CAPCMPF
Input Capture Compare-match Flag
If the input capture compare function is enabled, the flag is set by hardware when capture counter (ECAP_CNT) up counts and reaches the ECAP_CNTCMP value.
0 = ECAP_CNT has not matched ECAP_CNTCMP value since last clear.
1 = ECAP_CNT has matched ECAP_CNTCMP value at least once since last clear.
Note: This bit is only cleared by writing 1 to it.
[5]CAPOVF
Input Capture Counter Overflow Flag
Flag is set by hardware when counter (ECAP_CNT) overflows from 0x00FF_FFFF to zero.
0 = No overflow event has occurred since last clear.
1 = Overflow event(s) has/have occurred since last clear.
Note: This bit is only cleared by writing 1 to it.
[6]CAP0
Value of Input Channel 0, CAP0 (Read Only)
Reflecting the value of input channel 0, CAP0
(The bit is read only and write is ignored)
[7]CAP1
Value of Input Channel 1, CAP1 (Read Only)
Reflecting the value of input channel 1, CAP1
(The bit is read only and write is ignored)
[8]CAP2
Value of Input Channel 2, CAP2 (Read Only)
Reflecting the value of input channel 2, CAP2.
(The bit is read only and write is ignored)

Definition at line 523 of file ecap_reg.h.


The documentation for this struct was generated from the following file: