SDHS Registers
611
SLAU367P – October 2012 – Revised April 2020
Copyright © 2012–2020, Texas Instruments Incorporated
Sigma-Delta High Speed (SDHS)
22.5.14 SDHSCTL5 Register (Offset = 1Ah) [reset = 0h]
SDHSCTL5 is shown in
and described in
Return to
SDHS Control Register 5
Figure 22-40. SDHSCTL5 Register
15
14
13
12
11
10
9
8
Reserved
SDHS_LOCK
R-0h
R-0h
7
6
5
4
3
2
1
0
Reserved
SSTART
R-0h
R/W-0h
Table 22-25. SDHSCTL5 Register Field Descriptions
Bit
Field
Type
Reset
Description
15-9
Reserved
R
0h
Reserved. Always reads as 0.
8
SDHS_LOCK
R
0h
SDHS register lock status bit. This bit is asserted when the SDHS
has received the SDHS_PWR_UP signal. When this bit is asserted,
SDHSCTL3 register is locked.
Note:
1)When SDHSCTL0.TRGSRC = 0:
Once SDHSCTL4.SDHSON is written as 1,
SDHSCTL5.SDHS_LOCK is asserted immediately.
In order to update SDHS registers, clear SDHSCTL4.SDHSON first,
and then SDHSCTL3.TRIGEN needs to be cleared.
2) When SDHSCTL0.TRGSRC = 1:
It takes up to 4 system clock cycles to assert
SDHSCTL5.SDHS_LOCK after detecting the SDHS_PWR_UP signal
(ASQ_ACQARM from the ASQ).
In order to update SDHS registers, the SDHS_PWR_UP signal
should be de-asserted first by the ASQ, then SDHSCTL3.TRIGEN
needs to be cleared.
3) SDHS register configuration sequence:
a) After reset (or device power up), configure SDHSCTL0,
SDHSCTL1, SDHSCTL2, SDHSCTL7, SDHSWINHITH,
SDHSWINLOTH, and SDHSDTCDA registers
b) write '1' to SDHSCTL3.TRIGEN bit => SDHSCTL0, SDHSCTL1,
SDHSCTL2, SDHSCTL7, SDHSWINHITH, SDHSWINLOTH, and
SDHSDTCDA registers are locked
c) Apply a SDHS_PWR_UP signal => SDHSCTL3 register is locked
d) Apply a CONVERSION_START signal if necessary
Reset type: PUC
0h (R) = SDHSCTL3 register is unlocked.
1h (R) = SDHSCTL3 register is locked as well as SDHSCTL0,
SDHSCTL1, SDHSCTL2, SDHSCTL7, SDHSWINHITH,
SDHSWINLOTH, and SDHSDTCDA registers. Only read is allowed.
7-1
Reserved
R
0h
Reserved. Always reads as 0.