5 and 6 Channel Capacitive Touch Sensor
Datasheet
Table 5.1 Register Set in Hexadecimal Order (continued)
REGISTER
ADDRESS
DEFAULT
VALUE
R/W
REGISTER NAME
FUNCTION
PAGE
Product ID
CAP1006
Stores a fixed value that identifies
each product
44h
45h
5Dh
81h
FDh
R
Page 46
Product ID
CAP1005
Stores a fixed value that identifies
each product
Stores a fixed value that identifies
SMSC
FEh
FFh
R
R
Manufacturer ID
Revision
Page 47
Page 47
Stores a fixed value that represents
the revision number
During Power-On-Reset (POR), the default values are stored in the registers. A POR is initiated when
power is first applied to the part and the voltage on the VDD supply surpasses the POR level as
specified in the electrical characteristics. Any reads to undefined registers will return 00h. Writes to
undefined registers will not have an effect.
5.1
Main Status Control Register
Table 5.2 Main Status Control Register
ADDR
00h
R/W
REGISTER
B7
B6
B5
B4
B3
B2
B1
B0
DEFAULT
Main Status
Control
R/W
-
-
STBY
DSLEEP
-
-
-
INT
00h
The Main Status and Control register controls the primary power state of the device.
Bit 5 - STBY - Enables Standby.
‘0’ (default) - Sensor scanning is active.
‘1’ - Capacitive Touch Sensor scanning is limited to the sensors set in the Standby Channel register
(see Section 5.18). The status registers will not be cleared until read. Sensors that are no longer
sampled will flag a release and then remain in a non-touched state.
Bit 4 - DSLEEP - Enables Deep Sleep by deactivating all functions. This bit will be cleared when SPI
or SMBus are received targeting the CAP1005 / CAP1006. If the CAP1005 / CAP1006 is configured
to communicate using the BC-Link protocol, then this bit is ignored.
‘0’ (default) - Sensor scanning is active.
‘1’ - All sensor scanning is disabled. The status registers are automatically cleared and the INT bit
is cleared.
Bit 0 - INT - Indicates that there is an interrupt. This bit is only set if the ALERT# pin has been asserted.
If a channel detects a touch and its associated interrupt enable bit is not set to a logic ‘1’ then no
action is taken.
This bit is cleared by writing a logic ‘0’ to it. When this bit is cleared, the ALERT# pin will be deasserted
and all status registers will be cleared if the condition has been removed. If the WAKE/SPI_MOSI pin
is asserted as a result of a touch detected while in Standby, it will likewise be deasserted when this
bit is cleared.
Note that this pin is not driven when communicating via the 4-wire SPI protocol
‘0’ - No interrupt pending.
SMSC CAP1005 / CAP1006
Revision 1.1 (08-05-09)
DATA2S9HEET