SPRUIU1C User guide

SPRUIU1C July 2020 – February 2024 DRA821U , DRA821U-Q1

12.1.3.6 I2C Registers

Table 12-251 lists the memory-mapped registers for the I2C registers. All register offset addresses not listed in Table 12-251 should be considered as reserved locations and the register contents should not be modified.

Table 12-250 I2C Instances

Instance	Base Address
I2C0_CFG	0200 0000h
I2C1_CFG	0201 0000h
I2C2_CFG	0202 0000h
I2C3_CFG	0203 0000h
I2C4_CFG	0204 0000h
I2C5_CFG	0205 0000h
I2C6_CFG	0206 0000h
MCU_I2C0_CFG	40B0 0000h
MCU_I2C1_CFG	40B1 0000h
WKUP_I2C0_CFG	4212 0000h

Table 12-251 I2C Registers

Offset	Acronym	I2C0_CFG Physical Address	I2C1_CFG Physical Address	I2C2_CFG Physical Address
0h	I2C_REVNB_LO	0200 0000h	0201 0000h	0202 0000h
4h	I2C_REVNB_HI	0200 0004h	0201 0004h	0202 0004h
10h	I2C_SYSC	0200 0010h	0201 0010h	0202 0010h
20h	I2C_EOI	0200 0020h	0201 0020h	0202 0020h
24h	I2C_IRQSTATUS_RAW	0200 0024h	0201 0024h	0202 0024h
28h	I2C_IRQSTATUS	0200 0028h	0201 0028h	0202 0028h
2Ch	I2C_IRQENABLE_SET	0200 002Ch	0201 002Ch	0202 002Ch
30h	I2C_IRQENABLE_CLR	0200 0030h	0201 0030h	0202 0030h
34h	I2C_WE	0200 0034h	0201 0034h	0202 0034h
38h	I2C_DMARXENABLE_SET	0200 0038h	0201 0038h	0202 0038h
3Ch	I2C_DMATXENABLE_SET	0200 003Ch	0201 003Ch	0202 003Ch
40h	I2C_DMARXENABLE_CLR	0200 0040h	0201 0040h	0202 0040h
44h	I2C_DMATXENABLE_CLR	0200 0044h	0201 0044h	0202 0044h
48h	I2C_DMARXWAKE_EN	0200 0048h	0201 0048h	0202 0048h
4Ch	I2C_DMATXWAKE_EN	0200 004Ch	0201 004Ch	0202 004Ch
84h	I2C_IE	0200 0084h	0201 0084h	0202 0084h
88h	I2C_STAT	0200 0088h	0201 0088h	0202 0088h
90h	I2C_SYSS	0200 0090h	0201 0090h	0202 0090h
94h	I2C_BUF	0200 0094h	0201 0094h	0202 0094h
98h	I2C_CNT	0200 0098h	0201 0098h	0202 0098h
9Ch	I2C_DATA	0200 009Ch	0201 009Ch	0202 009Ch
A4h	I2C_CON	0200 00A4h	0201 00A4h	0202 00A4h
A8h	I2C_OA	0200 00A8h	0201 00A8h	0202 00A8h
ACh	I2C_SA	0200 00ACh	0201 00ACh	0202 00ACh
B0h	I2C_PSC	0200 00B0h	0201 00B0h	0202 00B0h
B4h	I2C_SCLL	0200 00B4h	0201 00B4h	0202 00B4h
B8h	I2C_SCLH	0200 00B8h	0201 00B8h	0202 00B8h
BCh	I2C_SYSTEST	0200 00BCh	0201 00BCh	0202 00BCh
C0h	I2C_BUFSTAT	0200 00C0h	0201 00C0h	0202 00C0h
C4h	I2C_OA1	0200 00C4h	0201 00C4h	0202 00C4h
C8h	I2C_OA2	0200 00C8h	0201 00C8h	0202 00C8h
CCh	I2C_OA3	0200 00CCh	0201 00CCh	0202 00CCh
D0h	I2C_ACTOA	0200 00D0h	0201 00D0h	0202 00D0h
D4h	I2C_SBLOCK	0200 00D4h	0201 00D4h	0202 00D4h

Table 12-252 I2C Registers

Offset	Acronym	I2C3_CFG Physical Address	I2C4_CFG Physical Address	I2C5_CFG Physical Address
0h	I2C_REVNB_LO	0203 0000h	0204 0000h	0205 0000h
4h	I2C_REVNB_HI	0203 0004h	0204 0004h	0205 0004h
10h	I2C_SYSC	0203 0010h	0204 0010h	0205 0010h
20h	I2C_EOI	0203 0020h	0204 0020h	0205 0020h
24h	I2C_IRQSTATUS_RAW	0203 0024h	0204 0024h	0205 0024h
28h	I2C_IRQSTATUS	0203 0028h	0204 0028h	0205 0028h
2Ch	I2C_IRQENABLE_SET	0203 002Ch	0204 002Ch	0205 002Ch
30h	I2C_IRQENABLE_CLR	0203 0030h	0204 0030h	0205 0030h
34h	I2C_WE	0203 0034h	0204 0034h	0205 0034h
38h	I2C_DMARXENABLE_SET	0203 0038h	0204 0038h	0205 0038h
3Ch	I2C_DMATXENABLE_SET	0203 003Ch	0204 003Ch	0205 003Ch
40h	I2C_DMARXENABLE_CLR	0203 0040h	0204 0040h	0205 0040h
44h	I2C_DMATXENABLE_CLR	0203 0044h	0204 0044h	0205 0044h
48h	I2C_DMARXWAKE_EN	0203 0048h	0204 0048h	0205 0048h
4Ch	I2C_DMATXWAKE_EN	0203 004Ch	0204 004Ch	0205 004Ch
84h	I2C_IE	0203 0084h	0204 0084h	0205 0084h
88h	I2C_STAT	0203 0088h	0204 0088h	0205 0088h
90h	I2C_SYSS	0203 0090h	0204 0090h	0205 0090h
94h	I2C_BUF	0203 0094h	0204 0094h	0205 0094h
98h	I2C_CNT	0203 0098h	0204 0098h	0205 0098h
9Ch	I2C_DATA	0203 009Ch	0204 009Ch	0205 009Ch
A4h	I2C_CON	0203 00A4h	0204 00A4h	0205 00A4h
A8h	I2C_OA	0203 00A8h	0204 00A8h	0205 00A8h
ACh	I2C_SA	0203 00ACh	0204 00ACh	0205 00ACh
B0h	I2C_PSC	0203 00B0h	0204 00B0h	0205 00B0h
B4h	I2C_SCLL	0203 00B4h	0204 00B4h	0205 00B4h
B8h	I2C_SCLH	0203 00B8h	0204 00B8h	0205 00B8h
BCh	I2C_SYSTEST	0203 00BCh	0204 00BCh	0205 00BCh
C0h	I2C_BUFSTAT	0203 00C0h	0204 00C0h	0205 00C0h
C4h	I2C_OA1	0203 00C4h	0204 00C4h	0205 00C4h
C8h	I2C_OA2	0203 00C8h	0204 00C8h	0205 00C8h
CCh	I2C_OA3	0203 00CCh	0204 00CCh	0205 00CCh
D0h	I2C_ACTOA	0203 00D0h	0204 00D0h	0205 00D0h
D4h	I2C_SBLOCK	0203 00D4h	0204 00D4h	0205 00D4h

Table 12-253 I2C Registers

Offset	Acronym	I2C6_CFG Physical Address	MCU_I2C0_CFG Physical Address	MCU_I2C1_CFG Physical Address
0h	I2C_REVNB_LO	0206 0000h	40B0 0000h	40B1 0000h
4h	I2C_REVNB_HI	0206 0004h	40B0 0004h	40B1 0004h
10h	I2C_SYSC	0206 0010h	40B0 0010h	40B1 0010h
20h	I2C_EOI	0206 0020h	40B0 0020h	40B1 0020h
24h	I2C_IRQSTATUS_RAW	0206 0024h	40B0 0024h	40B1 0024h
28h	I2C_IRQSTATUS	0206 0028h	40B0 0028h	40B1 0028h
2Ch	I2C_IRQENABLE_SET	0206 002Ch	40B0 002Ch	40B1 002Ch
30h	I2C_IRQENABLE_CLR	0206 0030h	40B0 0030h	40B1 0030h
34h	I2C_WE	0206 0034h	40B0 0034h	40B1 0034h
38h	I2C_DMARXENABLE_SET	0206 0038h	40B0 0038h	40B1 0038h
3Ch	I2C_DMATXENABLE_SET	0206 003Ch	40B0 003Ch	40B1 003Ch
40h	I2C_DMARXENABLE_CLR	0206 0040h	40B0 0040h	40B1 0040h
44h	I2C_DMATXENABLE_CLR	0206 0044h	40B0 0044h	40B1 0044h
48h	I2C_DMARXWAKE_EN	0206 0048h	40B0 0048h	40B1 0048h
4Ch	I2C_DMATXWAKE_EN	0206 004Ch	40B0 004Ch	40B1 004Ch
84h	I2C_IE	0206 0084h	40B0 0084h	40B1 0084h
88h	I2C_STAT	0206 0088h	40B0 0088h	40B1 0088h
90h	I2C_SYSS	0206 0090h	40B0 0090h	40B1 0090h
94h	I2C_BUF	0206 0094h	40B0 0094h	40B1 0094h
98h	I2C_CNT	0206 0098h	40B0 0098h	40B1 0098h
9Ch	I2C_DATA	0206 009Ch	40B0 009Ch	40B1 009Ch
A4h	I2C_CON	0206 00A4h	40B0 00A4h	40B1 00A4h
A8h	I2C_OA	0206 00A8h	40B0 00A8h	40B1 00A8h
ACh	I2C_SA	0206 00ACh	40B0 00ACh	40B1 00ACh
B0h	I2C_PSC	0206 00B0h	40B0 00B0h	40B1 00B0h
B4h	I2C_SCLL	0206 00B4h	40B0 00B4h	40B1 00B4h
B8h	I2C_SCLH	0206 00B8h	40B0 00B8h	40B1 00B8h
BCh	I2C_SYSTEST	0206 00BCh	40B0 00BCh	40B1 00BCh
C0h	I2C_BUFSTAT	0206 00C0h	40B0 00C0h	40B1 00C0h
C4h	I2C_OA1	0206 00C4h	40B0 00C4h	40B1 00C4h
C8h	I2C_OA2	0206 00C8h	40B0 00C8h	40B1 00C8h
CCh	I2C_OA3	0206 00CCh	40B0 00CCh	40B1 00CCh
D0h	I2C_ACTOA	0206 00D0h	40B0 00D0h	40B1 00D0h
D4h	I2C_SBLOCK	0206 00D4h	40B0 00D4h	40B1 00D4h

Table 12-254 I2C Registers

Offset	Acronym	WKUP_I2C0_CFG Physical Address
0h	I2C_REVNB_LO	4212 0000h
4h	I2C_REVNB_HI	4212 0004h
10h	I2C_SYSC	4212 0010h
20h	I2C_EOI	4212 0020h
24h	I2C_IRQSTATUS_RAW	4212 0024h
28h	I2C_IRQSTATUS	4212 0028h
2Ch	I2C_IRQENABLE_SET	4212 002Ch
30h	I2C_IRQENABLE_CLR	4212 0030h
34h	I2C_WE	4212 0034h
38h	I2C_DMARXENABLE_SET	4212 0038h
3Ch	I2C_DMATXENABLE_SET	4212 003Ch
40h	I2C_DMARXENABLE_CLR	4212 0040h
44h	I2C_DMATXENABLE_CLR	4212 0044h
48h	I2C_DMARXWAKE_EN	4212 0048h
4Ch	I2C_DMATXWAKE_EN	4212 004Ch
84h	I2C_IE	4212 0084h
88h	I2C_STAT	4212 0088h
90h	I2C_SYSS	4212 0090h
94h	I2C_BUF	4212 0094h
98h	I2C_CNT	4212 0098h
9Ch	I2C_DATA	4212 009Ch
A4h	I2C_CON	4212 00A4h
A8h	I2C_OA	4212 00A8h
ACh	I2C_SA	4212 00ACh
B0h	I2C_PSC	4212 00B0h
B4h	I2C_SCLL	4212 00B4h
B8h	I2C_SCLH	4212 00B8h
BCh	I2C_SYSTEST	4212 00BCh
C0h	I2C_BUFSTAT	4212 00C0h
C4h	I2C_OA1	4212 00C4h
C8h	I2C_OA2	4212 00C8h
CCh	I2C_OA3	4212 00CCh
D0h	I2C_ACTOA	4212 00D0h
D4h	I2C_SBLOCK	4212 00D4h

1.3.6.1 I2C_REVNB_LO Register (Offset = 0h) [reset = X]

I2C_REVNB_LO is shown in Figure 12-138 and described in Table 12-256.

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Revision Number register (Low)

Table 12-255 I2C_REVNB_LO Instances

Instance	Physical Address
I2C0_CFG	0200 0000h
I2C1_CFG	0201 0000h
I2C2_CFG	0202 0000h
I2C3_CFG	0203 0000h
I2C4_CFG	0204 0000h
I2C5_CFG	0205 0000h
I2C6_CFG	0206 0000h
MCU_I2C0_CFG	40B0 0000h
MCU_I2C1_CFG	40B1 0000h
WKUP_I2C0_CFG	4212 0000h

Figure 12-138 I2C_REVNB_LO Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16
RESERVED
R-X

15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RTL					MAJOR			CUSTOM		MINOR
R-1h					R-0h			R-0h		R-Ch

LEGEND: R = Read Only; -n = value after reset

Table 12-256 I2C_REVNB_LO Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R	X
15-11	RTL	R	1h	RTL version This field changes on bug fix, and resets to
10-8	MAJOR	R	0h	Major Revision This field changes when there is a major feature change This field does not change due to bug fix, or minor feature change
7-6	CUSTOM	R	0h	Indicates a special version for a particular device Consequence of use may avoid use of standard Chip Support Library [CSL] / Drivers 0 if non-custom
5-0	MINOR	R	Ch	Minor Revision This field changes when features are scaled up or down This field does not change due to bug fix, or major feature change

1.3.6.2 I2C_REVNB_HI Register (Offset = 4h) [reset = X]

I2C_REVNB_HI is shown in Figure 12-139 and described in Table 12-258.

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Revision Number register (High)

Table 12-257 I2C_REVNB_HI Instances

Instance	Physical Address
I2C0_CFG	0200 0004h
I2C1_CFG	0201 0004h
I2C2_CFG	0202 0004h
I2C3_CFG	0203 0004h
I2C4_CFG	0204 0004h
I2C5_CFG	0205 0004h
I2C6_CFG	0206 0004h
MCU_I2C0_CFG	40B0 0004h
MCU_I2C1_CFG	40B1 0004h
WKUP_I2C0_CFG	4212 0004h

Figure 12-139 I2C_REVNB_HI Register

31	30	29	28	27	26	25	24
RESERVED
R-X

23	22	21	20	19	18	17	16
RESERVED
R-X

15	14	13	12	11	10	9	8
SCHEME		RESERVED		FUNC
R-1h		R-1h		R-40h

7	6	5	4	3	2	1	0
FUNC
R-40h

LEGEND: R = Read Only; -n = value after reset

Table 12-258 I2C_REVNB_HI Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R	X
15-14	SCHEME	R	1h	Used to distinguish between old Scheme and current Spare bit to encode future schemes
13-12	RESERVED	R	1h	Reads return 0x1
11-0	FUNC	R	40h	Function: Indicates a software compatible module family

1.3.6.3 I2C_SYSC Register (Offset = 10h) [reset = X]

I2C_SYSC is shown in Figure 12-140 and described in Table 12-260.

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System Configuration register

Table 12-259 I2C_SYSC Instances

Instance	Physical Address
I2C0_CFG	0200 0010h
I2C1_CFG	0201 0010h
I2C2_CFG	0202 0010h
I2C3_CFG	0203 0010h
I2C4_CFG	0204 0010h
I2C5_CFG	0205 0010h
I2C6_CFG	0206 0010h
MCU_I2C0_CFG	40B0 0010h
MCU_I2C1_CFG	40B1 0010h
WKUP_I2C0_CFG	4212 0010h

Figure 12-140 I2C_SYSC Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
RESERVED						CLKACTIVITY
R-0h						R/W-0h

7	6	5	4	3	2	1	0
RESERVED			IDLEMODE		ENAWAKEUP	SRST	AUTOIDLE
R-0h			R/W-0h		R/W-0h	R/W-0h	R/W-1h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-260 I2C_SYSC Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15-10	RESERVED	R	0h	Reserved
9-8	CLKACTIVITY	R/W	0h	Clock Activity selection bits
7-5	RESERVED	R	0h	Reads return 0
4-3	IDLEMODE	R/W	0h	Idle Mode selection bits
2	ENAWAKEUP	R/W	0h	Enable Wakeup control bit
1	SRST	R/W	0h	SoftReset bit
0	AUTOIDLE	R/W	1h	Autoidle bit

1.3.6.4 I2C_EOI Register (Offset = 20h) [reset = X]

I2C_EOI is shown in Figure 12-141 and described in Table 12-262.

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End Of Interrupt number specification

The EOI register is used to re-trigger the pulse interrupt signal to ensure that any nested interrupt events are serviced. The software interrupt handler must write to the EOI register at the end of the current interrupt processing routine, so that new events can re-trigger the pulse interrupt signal again. For level interrupt signals the EOI register is not functional and must not be used.

Table 12-261 I2C_EOI Instances

Instance	Physical Address
I2C0_CFG	0200 0020h
I2C1_CFG	0201 0020h
I2C2_CFG	0202 0020h
I2C3_CFG	0203 0020h
I2C4_CFG	0204 0020h
I2C5_CFG	0205 0020h
I2C6_CFG	0206 0020h
MCU_I2C0_CFG	40B0 0020h
MCU_I2C1_CFG	40B1 0020h
WKUP_I2C0_CFG	4212 0020h

Figure 12-141 I2C_EOI Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
RESERVED
R-0h

7	6	5	4	3	2	1	0
RESERVED							LINE_NUMBER
R-0h							W-0h

LEGEND: R = Read Only; R/W = Read/Write; W = Write Only; -n = value after reset

Table 12-262 I2C_EOI Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15-1	RESERVED	R	0h	Reserved
0	LINE_NUMBER	W	0h	Software End Of Interrupt [EOI] control Write number of interrupt output

1.3.6.5 I2C_IRQSTATUS_RAW Register (Offset = 24h) [reset = X]

I2C_IRQSTATUS_RAW is shown in Figure 12-142 and described in Table 12-264.

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Per-event raw interrupt status vector

Table 12-263 I2C_IRQSTATUS_RAW Instances

Instance	Physical Address
I2C0_CFG	0200 0024h
I2C1_CFG	0201 0024h
I2C2_CFG	0202 0024h
I2C3_CFG	0203 0024h
I2C4_CFG	0204 0024h
I2C5_CFG	0205 0024h
I2C6_CFG	0206 0024h
MCU_I2C0_CFG	40B0 0024h
MCU_I2C1_CFG	40B1 0024h
WKUP_I2C0_CFG	4212 0024h

Figure 12-142 I2C_IRQSTATUS_RAW Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
RESERVED	XDR	RDR	BB	ROVR	XUDF	AAS	BF
R/W-0h	R/W-0h	R/W-0h	R-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

7	6	5	4	3	2	1	0
AERR	STC	GC	XRDY	RRDY	ARDY	NACK	AL
R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-264 I2C_IRQSTATUS_RAW Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15	RESERVED	R/W	0h	Write 0s for future compatibility Read returns 0
14	XDR	R/W	0h	Transmit draining IRQ status
13	RDR	R/W	0h	Receive draining IRQ status
12	BB	R	0h	Bus busy statusWriting into this bit has no effect
11	ROVR	R/W	0h	Receive overrun statusWriting into this bit has no effect
10	XUDF	R/W	0h	Transmit underflow statusWriting into this bit has no effect
9	AAS	R/W	0h	Address recognized as slave IRQ status
8	BF	R/W	0h	Bus Free IRQ status
7	AERR	R/W	0h	Access Error IRQ status
6	STC	R/W	0h	Start Condition IRQ status
5	GC	R/W	0h	General call IRQ status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear
4	XRDY	R/W	0h	Transmit data ready IRQ status Set to '1' by core when transmitter and when new data is requested When set to '1' by core, an interrupt is signaled to MPUSS Write '1' to clear
3	RRDY	R/W	0h	Receive data ready IRQ status Set to '1' by core when receiver mode, a new data is able to be read When set to '1' by core, an interrupt is signaled to MPUSS Write '1' to clear
2	ARDY	R/W	0h	Register access ready IRQ status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear
1	NACK	R/W	0h	No acknowledgement IRQ status Bit is set when No Acknowledge has been received, an interrupt is signaled to MPUSS Write '1' to clear this bit
0	AL	R/W	0h	Arbitration lost IRQ status This bit is automatically set by the hardware when it loses the Arbitration in master transmit mode, an interrupt is signaled to MPUSS During reads, it always returns 0

1.3.6.6 I2C_IRQSTATUS Register (Offset = 28h) [reset = X]

I2C_IRQSTATUS is shown in Figure 12-143 and described in Table 12-266.

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Per-event enabled interrupt status vector

Table 12-265 I2C_IRQSTATUS Instances

Instance	Physical Address
I2C0_CFG	0200 0028h
I2C1_CFG	0201 0028h
I2C2_CFG	0202 0028h
I2C3_CFG	0203 0028h
I2C4_CFG	0204 0028h
I2C5_CFG	0205 0028h
I2C6_CFG	0206 0028h
MCU_I2C0_CFG	40B0 0028h
MCU_I2C1_CFG	40B1 0028h
WKUP_I2C0_CFG	4212 0028h

Figure 12-143 I2C_IRQSTATUS Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
RESERVED	XDR	RDR	BB	ROVR	XUDF	AAS	BF
R/W-0h	R/W-0h	R/W-0h	R-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

7	6	5	4	3	2	1	0
AERR	STC	GC	XRDY	RRDY	ARDY	NACK	AL
R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-266 I2C_IRQSTATUS Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15	RESERVED	R/W	0h	Write 0s for future compatibility Read returns 0
14	XDR	R/W	0h	Transmit draining IRQ enabled status
13	RDR	R/W	0h	Receive draining IRQ enabled status
12	BB	R	0h	Bus busy enabled statusWriting into this bit has no effect
11	ROVR	R/W	0h	Receive overrun enabled statusWriting into this bit has no effect
10	XUDF	R/W	0h	Transmit underflow enabled statusWriting into this bit has no effect
9	AAS	R/W	0h	Address recognized as slave IRQ enabled status
8	BF	R/W	0h	Bus Free IRQ enabled status
7	AERR	R/W	0h	Access Error IRQ enabled status
6	STC	R/W	0h	Start Condition IRQ enabled status
5	GC	R/W	0h	General call IRQ enabled status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear
4	XRDY	R/W	0h	Transmit data ready IRQ enabled status Set to '1' by core when transmitter and when new data is requested When set to '1' by core, an interrupt is signaled to MPUSS Write '1' to clear
3	RRDY	R/W	0h	Receive data ready IRQ enabled status Set to '1' by core when receiver mode, a new data is able to be read When set to '1' by core, an interrupt is signaled to MPUSS Write '1' to clear
2	ARDY	R/W	0h	Register access ready IRQ enabled status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear
1	NACK	R/W	0h	No acknowledgement IRQ enabled status Bit is set when No Acknowledge has been received, an interrupt is signaled to MPUSS Write '1' to clear this bit
0	AL	R/W	0h	Arbitration lost IRQ enabled status This bit is automatically set by the hardware when it loses the Arbitration in master transmit mode, an interrupt is signaled to MPUSS During reads, it always returns 0

1.3.6.7 I2C_IRQENABLE_SET Register (Offset = 2Ch) [reset = X]

I2C_IRQENABLE_SET is shown in Figure 12-144 and described in Table 12-268.

Return to Summary Table.

Per-event interrupt enable bit vector.

Table 12-267 I2C_IRQENABLE_SET Instances

Instance	Physical Address
I2C0_CFG	0200 002Ch
I2C1_CFG	0201 002Ch
I2C2_CFG	0202 002Ch
I2C3_CFG	0203 002Ch
I2C4_CFG	0204 002Ch
I2C5_CFG	0205 002Ch
I2C6_CFG	0206 002Ch
MCU_I2C0_CFG	40B0 002Ch
MCU_I2C1_CFG	40B1 002Ch
WKUP_I2C0_CFG	4212 002Ch

Figure 12-144 I2C_IRQENABLE_SET Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
RESERVED	XDR_IE	RDR_IE	RESERVED	ROVR	XUDF	ASS_IE	BF_IE
R/W-0h	R/W-0h	R/W-0h	R-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

7	6	5	4	3	2	1	0
AERR_IE	STC_IE	GC_IE	XRDY_IE	RRDY_IE	ARDY_IE	NACK_IE	AL_IE
R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-268 I2C_IRQENABLE_SET Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15	RESERVED	R/W	0h	Write 0s for future compatibility Read returns 0
14	XDR_IE	R/W	0h	Transmit Draining interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]
13	RDR_IE	R/W	0h	Receive Draining interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]
12	RESERVED	R	0h	reserved
11	ROVR	R/W	0h	Receive overrun enable set
10	XUDF	R/W	0h	Transmit underflow enable set
9	ASS_IE	R/W	0h	Addressed as Slave interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]
8	BF_IE	R/W	0h	Bus Free interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]
7	AERR_IE	R/W	0h	Access Error interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]
6	STC_IE	R/W	0h	Start Condition interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]
5	GC_IE	R/W	0h	General call Interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]
4	XRDY_IE	R/W	0h	Transmit data ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]
3	RRDY_IE	R/W	0h	Receive data ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]
2	ARDY_IE	R/W	0h	Register access ready interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]
1	NACK_IE	R/W	0h	No acknowledgement interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]
0	AL_IE	R/W	0h	Arbitration lost interrupt enable set Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]

1.3.6.8 I2C_IRQENABLE_CLR Register (Offset = 30h) [reset = X]

I2C_IRQENABLE_CLR is shown in Figure 12-145 and described in Table 12-270.

Return to Summary Table.

Per-event interrupt clear bit vector.

Table 12-269 I2C_IRQENABLE_CLR Instances

Instance	Physical Address
I2C0_CFG	0200 0030h
I2C1_CFG	0201 0030h
I2C2_CFG	0202 0030h
I2C3_CFG	0203 0030h
I2C4_CFG	0204 0030h
I2C5_CFG	0205 0030h
I2C6_CFG	0206 0030h
MCU_I2C0_CFG	40B0 0030h
MCU_I2C1_CFG	40B1 0030h
WKUP_I2C0_CFG	4212 0030h

Figure 12-145 I2C_IRQENABLE_CLR Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
RESERVED	XDR_IE	RDR_IE	RESERVED	ROVR	XUDF	ASS_IE	BF_IE
R/W-0h	R/W-0h	R/W-0h	R-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

7	6	5	4	3	2	1	0
AERR_IE	STC_IE	GC_IE	XRDY_IE	RRDY_IE	ARDY_IE	NACK_IE	AL_IE
R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-270 I2C_IRQENABLE_CLR Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15	RESERVED	R/W	0h	Write 0s for future compatibility Read returns 0
14	XDR_IE	R/W	0h	Transmit Draining interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]
13	RDR_IE	R/W	0h	Receive Draining interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]
12	RESERVED	R	0h	reserved
11	ROVR	R/W	0h	Receive overrun enable clear
10	XUDF	R/W	0h	Transmit underflow enable clear
9	ASS_IE	R/W	0h	Addressed as Slave interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]
8	BF_IE	R/W	0h	Bus Free interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]
7	AERR_IE	R/W	0h	Access Error interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]
6	STC_IE	R/W	0h	Start Condition interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]
5	GC_IE	R/W	0h	General call Interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]
4	XRDY_IE	R/W	0h	Transmit data ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]
3	RRDY_IE	R/W	0h	Receive data ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]
2	ARDY_IE	R/W	0h	Register access ready interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]
1	NACK_IE	R/W	0h	No acknowledgement interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]
0	AL_IE	R/W	0h	Arbitration lost interrupt enable clear Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]

1.3.6.9 I2C_WE Register (Offset = 34h) [reset = X]

I2C_WE is shown in Figure 12-146 and described in Table 12-272.

Return to Summary Table.

I2C wakeup enable vector (legacy).

Table 12-271 I2C_WE Instances

Instance	Physical Address
I2C0_CFG	0200 0034h
I2C1_CFG	0201 0034h
I2C2_CFG	0202 0034h
I2C3_CFG	0203 0034h
I2C4_CFG	0204 0034h
I2C5_CFG	0205 0034h
I2C6_CFG	0206 0034h
MCU_I2C0_CFG	40B0 0034h
MCU_I2C1_CFG	40B1 0034h
WKUP_I2C0_CFG	4212 0034h

Figure 12-146 I2C_WE Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
RESERVED	XDR	RDR	RESERVED	ROVR	XUDF	AAS	BF
R-0h	R/W-0h	R/W-0h	R-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

7	6	5	4	3	2	1	0
RESERVED	STC	GC	RESERVED	DRDY	ARDY	NACK	AL
R-0h	R/W-0h	R/W-0h	R-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-272 I2C_WE Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15	RESERVED	R	0h	Reserved
14	XDR	R/W	0h	Transmit Draining wakeup set
13	RDR	R/W	0h	Receive Draining wakeup set
12	RESERVED	R	0h	Reserved
11	ROVR	R/W	0h	Receive overrun wakeup set
10	XUDF	R/W	0h	Transmit underflow wakeup set
9	AAS	R/W	0h	Address as slave IRQ wakeup set
8	BF	R/W	0h	Bus Free IRQ wakeup set
7	RESERVED	R	0h	Reserved
6	STC	R/W	0h	Start Condition IRQ wakeup set
5	GC	R/W	0h	General call IRQ wakeup set
4	RESERVED	R	0h	Reserved
3	DRDY	R/W	0h	Receive/Transmit data ready IRQ wakeup set
2	ARDY	R/W	0h	Register access ready IRQ wakeup set
1	NACK	R/W	0h	No acknowledgment IRQ wakeup set
0	AL	R/W	0h	Arbitration lost IRQ wakeup set

1.3.6.10 I2C_DMARXENABLE_SET Register (Offset = 38h) [reset = X]

I2C_DMARXENABLE_SET is shown in Figure 12-147 and described in Table 12-274.

Return to Summary Table.

Per-event DMA RX enable set.

Table 12-273 I2C_DMARXENABLE_SET Instances

Instance	Physical Address
I2C0_CFG	0200 0038h
I2C1_CFG	0201 0038h
I2C2_CFG	0202 0038h
I2C3_CFG	0203 0038h
I2C4_CFG	0204 0038h
I2C5_CFG	0205 0038h
I2C6_CFG	0206 0038h
MCU_I2C0_CFG	40B0 0038h
MCU_I2C1_CFG	40B1 0038h
WKUP_I2C0_CFG	4212 0038h

Figure 12-147 I2C_DMARXENABLE_SET Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
RESERVED
R-0h

7	6	5	4	3	2	1	0
RESERVED							DMARX_ENABLE_SET
R-0h							R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-274 I2C_DMARXENABLE_SET Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15-1	RESERVED	R	0h	Reserved
0	DMARX_ENABLE_SET	R/W	0h	Receive DMA channel enable set

1.3.6.11 I2C_DMATXENABLE_SET Register (Offset = 3Ch) [reset = X]

I2C_DMATXENABLE_SET is shown in Figure 12-148 and described in Table 12-276.

Return to Summary Table.

Per-event DMA TX enable set.

Table 12-275 I2C_DMATXENABLE_SET Instances

Instance	Physical Address
I2C0_CFG	0200 003Ch
I2C1_CFG	0201 003Ch
I2C2_CFG	0202 003Ch
I2C3_CFG	0203 003Ch
I2C4_CFG	0204 003Ch
I2C5_CFG	0205 003Ch
I2C6_CFG	0206 003Ch
MCU_I2C0_CFG	40B0 003Ch
MCU_I2C1_CFG	40B1 003Ch
WKUP_I2C0_CFG	4212 003Ch

Figure 12-148 I2C_DMATXENABLE_SET Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
RESERVED
R-0h

7	6	5	4	3	2	1	0
RESERVED							DMATX_ENABLE_SET
R-0h							R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-276 I2C_DMATXENABLE_SET Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15-1	RESERVED	R	0h	Reserved
0	DMATX_ENABLE_SET	R/W	0h	Transmit DMA channel enable set

1.3.6.12 I2C_DMARXENABLE_CLR Register (Offset = 40h) [reset = X]

I2C_DMARXENABLE_CLR is shown in Figure 12-149 and described in Table 12-278.

Return to Summary Table.

Per-event DMA RX enable clear.

Table 12-277 I2C_DMARXENABLE_CLR Instances

Instance	Physical Address
I2C0_CFG	0200 0040h
I2C1_CFG	0201 0040h
I2C2_CFG	0202 0040h
I2C3_CFG	0203 0040h
I2C4_CFG	0204 0040h
I2C5_CFG	0205 0040h
I2C6_CFG	0206 0040h
MCU_I2C0_CFG	40B0 0040h
MCU_I2C1_CFG	40B1 0040h
WKUP_I2C0_CFG	4212 0040h

Figure 12-149 I2C_DMARXENABLE_CLR Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
RESERVED
R-0h

7	6	5	4	3	2	1	0
RESERVED							DMARX_ENABLE_CLEAR
R-0h							R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-278 I2C_DMARXENABLE_CLR Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15-1	RESERVED	R	0h	Reserved
0	DMARX_ENABLE_CLEAR	R/W	0h	Receive DMA channel enable clear

1.3.6.13 I2C_DMATXENABLE_CLR Register (Offset = 44h) [reset = X]

I2C_DMATXENABLE_CLR is shown in Figure 12-150 and described in Table 12-280.

Return to Summary Table.

Per-event DMA TX enable clear.

Table 12-279 I2C_DMATXENABLE_CLR Instances

Instance	Physical Address
I2C0_CFG	0200 0044h
I2C1_CFG	0201 0044h
I2C2_CFG	0202 0044h
I2C3_CFG	0203 0044h
I2C4_CFG	0204 0044h
I2C5_CFG	0205 0044h
I2C6_CFG	0206 0044h
MCU_I2C0_CFG	40B0 0044h
MCU_I2C1_CFG	40B1 0044h
WKUP_I2C0_CFG	4212 0044h

Figure 12-150 I2C_DMATXENABLE_CLR Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
RESERVED
R-0h

7	6	5	4	3	2	1	0
RESERVED							DMATX_ENABLE_CLEAR
R-0h							R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-280 I2C_DMATXENABLE_CLR Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15-1	RESERVED	R	0h	Reserved
0	DMATX_ENABLE_CLEAR	R/W	0h	Transmit DMA channel enable clear

1.3.6.14 I2C_DMARXWAKE_EN Register (Offset = 48h) [reset = X]

I2C_DMARXWAKE_EN is shown in Figure 12-151 and described in Table 12-282.

Return to Summary Table.

Per-event DMA RX wakeup enable.

Table 12-281 I2C_DMARXWAKE_EN Instances

Instance	Physical Address
I2C0_CFG	0200 0048h
I2C1_CFG	0201 0048h
I2C2_CFG	0202 0048h
I2C3_CFG	0203 0048h
I2C4_CFG	0204 0048h
I2C5_CFG	0205 0048h
I2C6_CFG	0206 0048h
MCU_I2C0_CFG	40B0 0048h
MCU_I2C1_CFG	40B1 0048h
WKUP_I2C0_CFG	4212 0048h

Figure 12-151 I2C_DMARXWAKE_EN Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
RESERVED	XDR	RDR	RESERVED	ROVR	XUDF	AAS	BF
R-0h	R/W-0h	R/W-0h	R-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

7	6	5	4	3	2	1	0
RESERVED	STC	GC	RESERVED	DRDY	ARDY	NACK	AL
R-0h	R/W-0h	R/W-0h	R-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-282 I2C_DMARXWAKE_EN Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15	RESERVED	R	0h	Reserved
14	XDR	R/W	0h	Transmit Draining wakeup set
13	RDR	R/W	0h	Receive Draining wakeup set
12	RESERVED	R	0h	Reserved
11	ROVR	R/W	0h	Receive overrun wakeup set
10	XUDF	R/W	0h	Transmit underflow wakeup set
9	AAS	R/W	0h	Address as slave IRQ wakeup set
8	BF	R/W	0h	Bus Free IRQ wakeup set
7	RESERVED	R	0h	Reserved
6	STC	R/W	0h	Start Condition IRQ wakeup set
5	GC	R/W	0h	General call IRQ wakeup set
4	RESERVED	R	0h	Reserved
3	DRDY	R/W	0h	Receive/Transmit data ready IRQ wakeup set
2	ARDY	R/W	0h	Register access ready IRQ wakeup set
1	NACK	R/W	0h	No acknowledgment IRQ wakeup set
0	AL	R/W	0h	Arbitration lost IRQ wakeup set

1.3.6.15 I2C_DMATXWAKE_EN Register (Offset = 4Ch) [reset = X]

I2C_DMATXWAKE_EN is shown in Figure 12-152 and described in Table 12-284.

Return to Summary Table.

Per-event DMA TX wakeup enable.

Table 12-283 I2C_DMATXWAKE_EN Instances

Instance	Physical Address
I2C0_CFG	0200 004Ch
I2C1_CFG	0201 004Ch
I2C2_CFG	0202 004Ch
I2C3_CFG	0203 004Ch
I2C4_CFG	0204 004Ch
I2C5_CFG	0205 004Ch
I2C6_CFG	0206 004Ch
MCU_I2C0_CFG	40B0 004Ch
MCU_I2C1_CFG	40B1 004Ch
WKUP_I2C0_CFG	4212 004Ch

Figure 12-152 I2C_DMATXWAKE_EN Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
RESERVED	XDR	RDR	RESERVED	ROVR	XUDF	AAS	BF
R-0h	R/W-0h	R/W-0h	R-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

7	6	5	4	3	2	1	0
RESERVED	STC	GC	RESERVED	DRDY	ARDY	NACK	AL
R-0h	R/W-0h	R/W-0h	R-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-284 I2C_DMATXWAKE_EN Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15	RESERVED	R	0h	Reserved
14	XDR	R/W	0h	Transmit Draining wakeup set
13	RDR	R/W	0h	Receive Draining wakeup set
12	RESERVED	R	0h	Reserved
11	ROVR	R/W	0h	Receive overrun wakeup set
10	XUDF	R/W	0h	Transmit underflow wakeup set
9	AAS	R/W	0h	Address as slave IRQ wakeup set
8	BF	R/W	0h	Bus Free IRQ wakeup set
7	RESERVED	R	0h	Reserved
6	STC	R/W	0h	Start Condition IRQ wakeup set
5	GC	R/W	0h	General call IRQ wakeup set
4	RESERVED	R	0h	Reserved
3	DRDY	R/W	0h	Receive/Transmit data ready IRQ wakeup set
2	ARDY	R/W	0h	Register access ready IRQ wakeup set
1	NACK	R/W	0h	No acknowledgment IRQ wakeup set
0	AL	R/W	0h	Arbitration lost IRQ wakeup set

1.3.6.16 I2C_IE Register (Offset = 84h) [reset = X]

I2C_IE is shown in Figure 12-153 and described in Table 12-286.

Return to Summary Table.

I2C interrupt enable vector (legacy).

Table 12-285 I2C_IE Instances

Instance	Physical Address
I2C0_CFG	0200 0084h
I2C1_CFG	0201 0084h
I2C2_CFG	0202 0084h
I2C3_CFG	0203 0084h
I2C4_CFG	0204 0084h
I2C5_CFG	0205 0084h
I2C6_CFG	0206 0084h
MCU_I2C0_CFG	40B0 0084h
MCU_I2C1_CFG	40B1 0084h
WKUP_I2C0_CFG	4212 0084h

Figure 12-153 I2C_IE Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
RESERVED	XDR_IE	RDR_IE	RESERVED	ROVR	XUDF	ASS_IE	BF_IE
R/W-0h	R/W-0h	R/W-0h	R-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

7	6	5	4	3	2	1	0
AERR_IE	STC_IE	GC_IE	XRDY_IE	RRDY_IE	ARDY_IE	NACK_IE	AL_IE
R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-286 I2C_IE Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15	RESERVED	R/W	0h	Write 0s for future compatibility Read returns 0
14	XDR_IE	R/W	0h	Transmit Draining interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[XDR]
13	RDR_IE	R/W	0h	Receive Draining interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[RDR]
12	RESERVED	R	0h	reserved
11	ROVR	R/W	0h	Receive overrun enable set
10	XUDF	R/W	0h	Transmit underflow enable set
9	ASS_IE	R/W	0h	Addressed as Slave interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AAS]
8	BF_IE	R/W	0h	Bus Free interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[BF]
7	AERR_IE	R/W	0h	Access Error interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AERR]
6	STC_IE	R/W	0h	Start Condition interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[STC]
5	GC_IE	R/W	0h	General call Interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[GC]
4	XRDY_IE	R/W	0h	Transmit data ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[XRDY]
3	RRDY_IE	R/W	0h	Receive data ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[RRDY]
2	ARDY_IE	R/W	0h	Register access ready interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[ARDY]
1	NACK_IE	R/W	0h	No acknowledgement interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[NACK]
0	AL_IE	R/W	0h	Arbitration lost interrupt enable Mask or unmask the interrupt signaled by bit in I2C_STAT[AL]

1.3.6.17 I2C_STAT Register (Offset = 88h) [reset = X]

I2C_STAT is shown in Figure 12-154 and described in Table 12-288.

Return to Summary Table.

I2C interrupt status vector (legacy).

Table 12-287 I2C_STAT Instances

Instance	Physical Address
I2C0_CFG	0200 0088h
I2C1_CFG	0201 0088h
I2C2_CFG	0202 0088h
I2C3_CFG	0203 0088h
I2C4_CFG	0204 0088h
I2C5_CFG	0205 0088h
I2C6_CFG	0206 0088h
MCU_I2C0_CFG	40B0 0088h
MCU_I2C1_CFG	40B1 0088h
WKUP_I2C0_CFG	4212 0088h

Figure 12-154 I2C_STAT Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
RESERVED	XDR	RDR	BB	ROVR	XUDF	AAS	BF
R/W-0h	R/W-0h	R/W-0h	R-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

7	6	5	4	3	2	1	0
AERR	STC	GC	XRDY	RRDY	ARDY	NACK	AL
R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-288 I2C_STAT Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15	RESERVED	R/W	0h	Write 0s for future compatibility Read returns 0
14	XDR	R/W	0h	Transmit draining IRQ status
13	RDR	R/W	0h	Receive draining IRQ status
12	BB	R	0h	Bus busy statusWriting into this bit has no effect
11	ROVR	R/W	0h	Receive overrun statusWriting into this bit has no effect
10	XUDF	R/W	0h	Transmit underflow statusWriting into this bit has no effect
9	AAS	R/W	0h	Address recognized as slave IRQ status
8	BF	R/W	0h	Bus Free IRQ status
7	AERR	R/W	0h	Access Error IRQ status
6	STC	R/W	0h	Start Condition IRQ status
5	GC	R/W	0h	General call IRQ status Set to '1' by core when General call address detected and interrupt signaled to MPUSS Write '1' to clear
4	XRDY	R/W	0h	Transmit data ready IRQ status Set to '1' by core when transmitter and when new data is requested When set to '1' by core, an interrupt is signaled to MPUSS Write '1' to clear
3	RRDY	R/W	0h	Receive data ready IRQ status Set to '1' by core when receiver mode, a new data is able to be read When set to '1' by core, an interrupt is signaled to MPUSS Write '1' to clear
2	ARDY	R/W	0h	Register access ready IRQ status When set to '1' it indicates that previous access has been performed and registers are ready to be accessed again An interrupt is signaled to MPUSS Write '1' to clear
1	NACK	R/W	0h	No acknowledgement IRQ status Bit is set when No Acknowledge has been received, an interrupt is signaled to MPUSS Write '1' to clear this bit
0	AL	R/W	0h	Arbitration lost IRQ status This bit is automatically set by the hardware when it loses the Arbitration in master transmit mode, an interrupt is signaled to MPUSS During reads, it always returns 0

1.3.6.18 I2C_SYSS Register (Offset = 90h) [reset = X]

I2C_SYSS is shown in Figure 12-155 and described in Table 12-290.

Return to Summary Table.

System Status register

Table 12-289 I2C_SYSS Instances

Instance	Physical Address
I2C0_CFG	0200 0090h
I2C1_CFG	0201 0090h
I2C2_CFG	0202 0090h
I2C3_CFG	0203 0090h
I2C4_CFG	0204 0090h
I2C5_CFG	0205 0090h
I2C6_CFG	0206 0090h
MCU_I2C0_CFG	40B0 0090h
MCU_I2C1_CFG	40B1 0090h
WKUP_I2C0_CFG	4212 0090h

Figure 12-155 I2C_SYSS Register

31	30	29	28	27	26	25	24
RESERVED
R-X

23	22	21	20	19	18	17	16
RESERVED
R-X

15	14	13	12	11	10	9	8
RESERVED
R-0h

7	6	5	4	3	2	1	0
RESERVED							RDONE
R-0h							R-0h

LEGEND: R = Read Only; -n = value after reset

Table 12-290 I2C_SYSS Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R	X
15-1	RESERVED	R	0h	Reserved
0	RDONE	R	0h	Reset done bit

1.3.6.19 I2C_BUF Register (Offset = 94h) [reset = X]

I2C_BUF is shown in Figure 12-156 and described in Table 12-292.

Return to Summary Table.

Buffer Configuration register

Table 12-291 I2C_BUF Instances

Instance	Physical Address
I2C0_CFG	0200 0094h
I2C1_CFG	0201 0094h
I2C2_CFG	0202 0094h
I2C3_CFG	0203 0094h
I2C4_CFG	0204 0094h
I2C5_CFG	0205 0094h
I2C6_CFG	0206 0094h
MCU_I2C0_CFG	40B0 0094h
MCU_I2C1_CFG	40B1 0094h
WKUP_I2C0_CFG	4212 0094h

Figure 12-156 I2C_BUF Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
RDMA_EN	RXFIFO_CLR	RXTRSH
R/W-0h	R/W-0h	R/W-0h

7	6	5	4	3	2	1	0
XDMA_EN	TXFIFO_CLR	TXTRSH
R/W-0h	R/W-0h	R/W-0h

LEGEND: R/W = Read/Write; -n = value after reset

Table 12-292 I2C_BUF Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15	RDMA_EN	R/W	0h	Receive DMA channel enable
14	RXFIFO_CLR	R/W	0h	Receive FIFO clear
13-8	RXTRSH	R/W	0h	Threshold value for FIFO buffer in RX mode
7	XDMA_EN	R/W	0h	Transmit DMA channel enable
6	TXFIFO_CLR	R/W	0h	Transmit FIFO clear
5-0	TXTRSH	R/W	0h	Threshold value for FIFO buffer in TX mode

1.3.6.20 I2C_CNT Register (Offset = 98h) [reset = X]

I2C_CNT is shown in Figure 12-157 and described in Table 12-294.

Return to Summary Table.

Data counter register

Table 12-293 I2C_CNT Instances

Instance	Physical Address
I2C0_CFG	0200 0098h
I2C1_CFG	0201 0098h
I2C2_CFG	0202 0098h
I2C3_CFG	0203 0098h
I2C4_CFG	0204 0098h
I2C5_CFG	0205 0098h
I2C6_CFG	0206 0098h
MCU_I2C0_CFG	40B0 0098h
MCU_I2C1_CFG	40B1 0098h
WKUP_I2C0_CFG	4212 0098h

Figure 12-157 I2C_CNT Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																DCOUNT
R/W-X																R/W-0h

LEGEND: R/W = Read/Write; -n = value after reset

Table 12-294 I2C_CNT Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15-0	DCOUNT	R/W	0h	Data count

1.3.6.21 I2C_DATA Register (Offset = 9Ch) [reset = X]

I2C_DATA is shown in Figure 12-158 and described in Table 12-296.

Return to Summary Table.

Data access register

Table 12-295 I2C_DATA Instances

Instance	Physical Address
I2C0_CFG	0200 009Ch
I2C1_CFG	0201 009Ch
I2C2_CFG	0202 009Ch
I2C3_CFG	0203 009Ch
I2C4_CFG	0204 009Ch
I2C5_CFG	0205 009Ch
I2C6_CFG	0206 009Ch
MCU_I2C0_CFG	40B0 009Ch
MCU_I2C1_CFG	40B1 009Ch
WKUP_I2C0_CFG	4212 009Ch

Figure 12-158 I2C_DATA Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																RESERVED								DATA
R/W-X																R-0h								R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-296 I2C_DATA Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15-8	RESERVED	R	0h	Reserved
7-0	DATA	R/W	0h	Transmit/Receive data FIFO endpoint

1.3.6.22 I2C_CON Register (Offset = A4h) [reset = X]

I2C_CON is shown in Figure 12-159 and described in Table 12-298.

Return to Summary Table.

I2C configuration register.

Table 12-297 I2C_CON Instances

Instance	Physical Address
I2C0_CFG	0200 00A4h
I2C1_CFG	0201 00A4h
I2C2_CFG	0202 00A4h
I2C3_CFG	0203 00A4h
I2C4_CFG	0204 00A4h
I2C5_CFG	0205 00A4h
I2C6_CFG	0206 00A4h
MCU_I2C0_CFG	40B0 00A4h
MCU_I2C1_CFG	40B1 00A4h
WKUP_I2C0_CFG	4212 00A4h

Figure 12-159 I2C_CON Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
I2C_EN	RESERVED	OPMODE		STB	MST	TRX	XSA
R/W-0h	R-0h	R/W-0h		R/W-0h	R/W-0h	R/W-0h	R/W-0h

7	6	5	4	3	2	1	0
XOA0	XOA1	XOA2	XOA3	RESERVED		STP	STT
R/W-0h	R/W-0h	R/W-0h	R/W-0h	R-0h		R/W-0h	R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-298 I2C_CON Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15	I2C_EN	R/W	0h	I2C module enable
14	RESERVED	R	0h	Reserved
13-12	OPMODE	R/W	0h	Operation mode selection
11	STB	R/W	0h	Start byte mode [master mode only]
10	MST	R/W	0h	Master/slave mode
9	TRX	R/W	0h	Transmitter/Receiver mode [master mode only]
8	XSA	R/W	0h	Expand Slave address
7	XOA0	R/W	0h	Expand Own address 0
6	XOA1	R/W	0h	Expand Own address 1
5	XOA2	R/W	0h	Expand Own address 2
4	XOA3	R/W	0h	Expand Own address 3
3-2	RESERVED	R	0h	Reserved
1	STP	R/W	0h	Stop condition [master mode only]
0	STT	R/W	0h	Start condition [master mode only]

1.3.6.23 I2C_OA Register (Offset = A8h) [reset = X]

I2C_OA is shown in Figure 12-160 and described in Table 12-300.

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Own address register

Table 12-299 I2C_OA Instances

Instance	Physical Address
I2C0_CFG	0200 00A8h
I2C1_CFG	0201 00A8h
I2C2_CFG	0202 00A8h
I2C3_CFG	0203 00A8h
I2C4_CFG	0204 00A8h
I2C5_CFG	0205 00A8h
I2C6_CFG	0206 00A8h
MCU_I2C0_CFG	40B0 00A8h
MCU_I2C1_CFG	40B1 00A8h
WKUP_I2C0_CFG	4212 00A8h

Figure 12-160 I2C_OA Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
MCODE			RESERVED			OA
R/W-0h			R-0h			R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-300 I2C_OA Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15-13	MCODE	R/W	0h	Master Code
12-10	RESERVED	R	0h	Reserved
9-0	OA	R/W	0h	Own address

1.3.6.24 I2C_SA Register (Offset = ACh) [reset = X]

I2C_SA is shown in Figure 12-161 and described in Table 12-302.

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Slave address register

Table 12-301 I2C_SA Instances

Instance	Physical Address
I2C0_CFG	0200 00ACh
I2C1_CFG	0201 00ACh
I2C2_CFG	0202 00ACh
I2C3_CFG	0203 00ACh
I2C4_CFG	0204 00ACh
I2C5_CFG	0205 00ACh
I2C6_CFG	0206 00ACh
MCU_I2C0_CFG	40B0 00ACh
MCU_I2C1_CFG	40B1 00ACh
WKUP_I2C0_CFG	4212 00ACh

Figure 12-161 I2C_SA Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED						SA
R-0h						R/W-3FFh

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-302 I2C_SA Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15-10	RESERVED	R	0h	Reserved
9-0	SA	R/W	3FFh	Slave address

1.3.6.25 I2C_PSC Register (Offset = B0h) [reset = X]

I2C_PSC is shown in Figure 12-162 and described in Table 12-304.

Return to Summary Table.

I2C Clock Prescaler Register

Table 12-303 I2C_PSC Instances

Instance	Physical Address
I2C0_CFG	0200 00B0h
I2C1_CFG	0201 00B0h
I2C2_CFG	0202 00B0h
I2C3_CFG	0203 00B0h
I2C4_CFG	0204 00B0h
I2C5_CFG	0205 00B0h
I2C6_CFG	0206 00B0h
MCU_I2C0_CFG	40B0 00B0h
MCU_I2C1_CFG	40B1 00B0h
WKUP_I2C0_CFG	4212 00B0h

Figure 12-162 I2C_PSC Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																RESERVED								PSC
R/W-X																R-0h								R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-304 I2C_PSC Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15-8	RESERVED	R	0h	Reserved
7-0	PSC	R/W	0h	Fast/Standard mode prescale sampling clock divider value 0x 0: Divide by 1 0x 1: Divide by 2 0xFF: Divide by 256

1.3.6.26 I2C_SCLL Register (Offset = B4h) [reset = X]

I2C_SCLL is shown in Figure 12-163 and described in Table 12-306.

Return to Summary Table.

I2C SCL Low Time Register.

Table 12-305 I2C_SCLL Instances

Instance	Physical Address
I2C0_CFG	0200 00B4h
I2C1_CFG	0201 00B4h
I2C2_CFG	0202 00B4h
I2C3_CFG	0203 00B4h
I2C4_CFG	0204 00B4h
I2C5_CFG	0205 00B4h
I2C6_CFG	0206 00B4h
MCU_I2C0_CFG	40B0 00B4h
MCU_I2C1_CFG	40B1 00B4h
WKUP_I2C0_CFG	4212 00B4h

Figure 12-163 I2C_SCLL Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																HSSCLL								SCLL
R/W-X																R/W-0h								R/W-0h

LEGEND: R/W = Read/Write; -n = value after reset

Table 12-306 I2C_SCLL Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15-8	HSSCLL	R/W	0h	High Speed mode SCL low time
7-0	SCLL	R/W	0h	Fast/Standard mode SCL low time

1.3.6.27 I2C_SCLH Register (Offset = B8h) [reset = X]

I2C_SCLH is shown in Figure 12-164 and described in Table 12-308.

Return to Summary Table.

I2C SCL High Time Register.

Table 12-307 I2C_SCLH Instances

Instance	Physical Address
I2C0_CFG	0200 00B8h
I2C1_CFG	0201 00B8h
I2C2_CFG	0202 00B8h
I2C3_CFG	0203 00B8h
I2C4_CFG	0204 00B8h
I2C5_CFG	0205 00B8h
I2C6_CFG	0206 00B8h
MCU_I2C0_CFG	40B0 00B8h
MCU_I2C1_CFG	40B1 00B8h
WKUP_I2C0_CFG	4212 00B8h

Figure 12-164 I2C_SCLH Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																HSSCLH								SCLH
R/W-X																R/W-0h								R/W-0h

LEGEND: R/W = Read/Write; -n = value after reset

Table 12-308 I2C_SCLH Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15-8	HSSCLH	R/W	0h	High Speed mode SCL high time
7-0	SCLH	R/W	0h	Fast/Standard mode SCL high time

1.3.6.28 I2C_SYSTEST Register (Offset = BCh) [reset = X]

I2C_SYSTEST is shown in Figure 12-165 and described in Table 12-310.

Return to Summary Table.

I2C System Test Register.

Table 12-309 I2C_SYSTEST Instances

Instance	Physical Address
I2C0_CFG	0200 00BCh
I2C1_CFG	0201 00BCh
I2C2_CFG	0202 00BCh
I2C3_CFG	0203 00BCh
I2C4_CFG	0204 00BCh
I2C5_CFG	0205 00BCh
I2C6_CFG	0206 00BCh
MCU_I2C0_CFG	40B0 00BCh
MCU_I2C1_CFG	40B1 00BCh
WKUP_I2C0_CFG	4212 00BCh

Figure 12-165 I2C_SYSTEST Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
ST_EN	FREE	TMODE		SSB	RESERVED		SCL_I_FUNC
R/W-0h	R/W-0h	R/W-0h		R/W-0h	R-0h		R-1h

7	6	5	4	3	2	1	0
SCL_O_FUNC	SDA_I_FUNC	SDA_O_FUNC	SCCB_E_O	SCL_I	SCL_O	SDA_I	SDA_O
R-1h	R-1h	R-1h	R/W-0h	R-0h	R/W-0h	R-0h	R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-310 I2C_SYSTEST Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15	ST_EN	R/W	0h	System test enable
14	FREE	R/W	0h	Free running mode [on breakpoint]
13-12	TMODE	R/W	0h	Test mode select
11	SSB	R/W	0h	Set status bits
10-9	RESERVED	R	0h	Reserved
8	SCL_I_FUNC	R	1h	SCL line input value [functional mode]
7	SCL_O_FUNC	R	1h	SCL line output value [functional mode]
6	SDA_I_FUNC	R	1h	SDA line input value [functional mode]
5	SDA_O_FUNC	R	1h	SDA line output value [functional mode]
4	SCCB_E_O	R/W	0h	SCCB_E line sense output value
3	SCL_I	R	0h	SCL line sense input value
2	SCL_O	R/W	0h	SCL line drive output value
1	SDA_I	R	0h	SDA line sense input value
0	SDA_O	R/W	0h	SDA line drive output value

1.3.6.29 I2C_BUFSTAT Register (Offset = C0h) [reset = X]

I2C_BUFSTAT is shown in Figure 12-166 and described in Table 12-312.

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I2C Buffer Status Register.

Table 12-311 I2C_BUFSTAT Instances

Instance	Physical Address
I2C0_CFG	0200 00C0h
I2C1_CFG	0201 00C0h
I2C2_CFG	0202 00C0h
I2C3_CFG	0203 00C0h
I2C4_CFG	0204 00C0h
I2C5_CFG	0205 00C0h
I2C6_CFG	0206 00C0h
MCU_I2C0_CFG	40B0 00C0h
MCU_I2C1_CFG	40B1 00C0h
WKUP_I2C0_CFG	4212 00C0h

Figure 12-166 I2C_BUFSTAT Register

31	30	29	28	27	26	25	24
RESERVED
R-X

23	22	21	20	19	18	17	16
RESERVED
R-X

15	14	13	12	11	10	9	8
FIFODEPTH		RXSTAT
R-2h		R-0h

7	6	5	4	3	2	1	0
RESERVED		TXSTAT
R-0h		R-0h

LEGEND: R = Read Only; -n = value after reset

Table 12-312 I2C_BUFSTAT Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R	X
15-14	FIFODEPTH	R	2h	Internal FIFO buffers depth
13-8	RXSTAT	R	0h	RX Buffer Status
7-6	RESERVED	R	0h	Reserved
5-0	TXSTAT	R	0h	TX Buffer Status

1.3.6.30 I2C_OA1 Register (Offset = C4h) [reset = X]

I2C_OA1 is shown in Figure 12-167 and described in Table 12-314.

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I2C Own Address 1 Register

Table 12-313 I2C_OA1 Instances

Instance	Physical Address
I2C0_CFG	0200 00C4h
I2C1_CFG	0201 00C4h
I2C2_CFG	0202 00C4h
I2C3_CFG	0203 00C4h
I2C4_CFG	0204 00C4h
I2C5_CFG	0205 00C4h
I2C6_CFG	0206 00C4h
MCU_I2C0_CFG	40B0 00C4h
MCU_I2C1_CFG	40B1 00C4h
WKUP_I2C0_CFG	4212 00C4h

Figure 12-167 I2C_OA1 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED						OA1
R-0h						R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-314 I2C_OA1 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15-10	RESERVED	R	0h	Reserved
9-0	OA1	R/W	0h	Own address 1

1.3.6.31 I2C_OA2 Register (Offset = C8h) [reset = X]

I2C_OA2 is shown in Figure 12-168 and described in Table 12-316.

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I2C Own Address 2 Register

Table 12-315 I2C_OA2 Instances

Instance	Physical Address
I2C0_CFG	0200 00C8h
I2C1_CFG	0201 00C8h
I2C2_CFG	0202 00C8h
I2C3_CFG	0203 00C8h
I2C4_CFG	0204 00C8h
I2C5_CFG	0205 00C8h
I2C6_CFG	0206 00C8h
MCU_I2C0_CFG	40B0 00C8h
MCU_I2C1_CFG	40B1 00C8h
WKUP_I2C0_CFG	4212 00C8h

Figure 12-168 I2C_OA2 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED						OA2
R-0h						R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-316 I2C_OA2 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15-10	RESERVED	R	0h	Reserved
9-0	OA2	R/W	0h	Own address 2

1.3.6.32 I2C_OA3 Register (Offset = CCh) [reset = X]

I2C_OA3 is shown in Figure 12-169 and described in Table 12-318.

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I2C Own Address 3 Register

Table 12-317 I2C_OA3 Instances

Instance	Physical Address
I2C0_CFG	0200 00CCh
I2C1_CFG	0201 00CCh
I2C2_CFG	0202 00CCh
I2C3_CFG	0203 00CCh
I2C4_CFG	0204 00CCh
I2C5_CFG	0205 00CCh
I2C6_CFG	0206 00CCh
MCU_I2C0_CFG	40B0 00CCh
MCU_I2C1_CFG	40B1 00CCh
WKUP_I2C0_CFG	4212 00CCh

Figure 12-169 I2C_OA3 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED						OA3
R-0h						R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-318 I2C_OA3 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15-10	RESERVED	R	0h	Reserved
9-0	OA3	R/W	0h	Own address 3

1.3.6.33 I2C_ACTOA Register (Offset = D0h) [reset = X]

I2C_ACTOA is shown in Figure 12-170 and described in Table 12-320.

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I2C Active Own Address Register.

Table 12-319 I2C_ACTOA Instances

Instance	Physical Address
I2C0_CFG	0200 00D0h
I2C1_CFG	0201 00D0h
I2C2_CFG	0202 00D0h
I2C3_CFG	0203 00D0h
I2C4_CFG	0204 00D0h
I2C5_CFG	0205 00D0h
I2C6_CFG	0206 00D0h
MCU_I2C0_CFG	40B0 00D0h
MCU_I2C1_CFG	40B1 00D0h
WKUP_I2C0_CFG	4212 00D0h

Figure 12-170 I2C_ACTOA Register

31	30	29	28	27	26	25	24
RESERVED
R-X

23	22	21	20	19	18	17	16
RESERVED
R-X

15	14	13	12	11	10	9	8
RESERVED
R-0h

7	6	5	4	3	2	1	0
RESERVED				OA3_ACT	OA2_ACT	OA1_ACT	OA0_ACT
R-0h				R-0h	R-0h	R-0h	R-0h

LEGEND: R = Read Only; -n = value after reset

Table 12-320 I2C_ACTOA Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R	X
15-4	RESERVED	R	0h	Reserved
3	OA3_ACT	R	0h	Own Address 3 active
2	OA2_ACT	R	0h	Own Address 2 active
1	OA1_ACT	R	0h	Own Address 1 active
0	OA0_ACT	R	0h	Own Address 0 active

1.3.6.34 I2C_SBLOCK Register (Offset = D4h) [reset = X]

I2C_SBLOCK is shown in Figure 12-171 and described in Table 12-322.

Return to Summary Table.

I2C Clock Blocking Enable Register.

Table 12-321 I2C_SBLOCK Instances

Instance	Physical Address
I2C0_CFG	0200 00D4h
I2C1_CFG	0201 00D4h
I2C2_CFG	0202 00D4h
I2C3_CFG	0203 00D4h
I2C4_CFG	0204 00D4h
I2C5_CFG	0205 00D4h
I2C6_CFG	0206 00D4h
MCU_I2C0_CFG	40B0 00D4h
MCU_I2C1_CFG	40B1 00D4h
WKUP_I2C0_CFG	4212 00D4h

Figure 12-171 I2C_SBLOCK Register

31	30	29	28	27	26	25	24
RESERVED
R/W-X

23	22	21	20	19	18	17	16
RESERVED
R/W-X

15	14	13	12	11	10	9	8
RESERVED
R-0h

7	6	5	4	3	2	1	0
RESERVED				OA3_EN	OA2_EN	OA1_EN	OA0_EN
R-0h				R/W-0h	R/W-0h	R/W-0h	R/W-0h

LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset

Table 12-322 I2C_SBLOCK Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W	X
15-4	RESERVED	R	0h	Reserved
3	OA3_EN	R/W	0h	Enable I2C Clock Blocking for Own Address 3
2	OA2_EN	R/W	0h	Enable I2C Clock Blocking for Own Address 2
1	OA1_EN	R/W	0h	Enable I2C Clock Blocking for Own Address 1
0	OA0_EN	R/W	0h	Enable I2C Clock Blocking for Own Address 0