MAX7359 Maxim, MAX7359 Datasheet - Page 17
MAX7359
Manufacturer Part Number
MAX7359
Description
The MAX7359 I²C interfaced peripheral provides microprocessors with management of up to 64 key switches
Manufacturer
Maxim
Datasheet
1.MAX7359.pdf
(20 pages)
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Address autoincrementing allows the MAX7359 to be
configured with fewer transmissions by minimizing the
number of times the command address needs to be
sent. The command address stored in the MAX7359
generally increments after each data byte is written or
read (Table 11). Autoincrement only works when doing
a multiburst read or write.
Ghost keys are a phenomenon inherent with key-switch
matrices. When three switches located at the corners of
a matrix rectangle are pressed simultaneously, the
switch that is located at the last corner of the rectangle
(the ghost key) also appears to be pressed. This occurs
because the potentials at the two sides of the ghost-key
switch are identical due to the other three connections—
the switch is electrically shorted by the combination of
the other three switches (Figure 9). Because the key
appears to be pressed electrically, it is impossible to
detect which of the four keys is the ghost key.
The MAX7359 employs a proprietary scheme that
detects any three-key combination that generates a
fourth ghost key, and does not report the third key that
causes a ghost key event. This means that although
ghost keys are never reported, many combinations of
three keys are effectively ignored when pressed at the
same time. Applications requiring three-key combina-
tions (such as <Ctrl><Alt><Del>) must ensure that the
three keys are not wired in positions that define the ver-
tices of a rectangle (Figure 10). There is no limit on the
number of keys that can be pressed simultaneously as
long as the keys do not generate ghost key events and
FIFO is not full.
The MAX7359 uses two techniques to minimize EMI
radiating from the key-switch wiring. First, the voltage
across the switch matrix never exceeds 0.55V when not
Figure 8. N Data Bytes Received
S
Command Address Autoincrementing
SLAVE ADDRESS
ACKNOWLEDGE FROM MAX7359
Applications Information
______________________________________________________________________________________
Ghost-Key Elimination
R/W
0
Low-EMI Operation
A
D7
D6
D5
COMMAND BYTE
Key Switch Controller/GPO
ACKNOWLEDGE FROM MAX7359
2-Wire Interfaced Low-EMI
D4
D3
D2
in sleep mode, irrespective of supply voltage V
reduces the voltage swing at any node when a switch is
pressed to 0.55V maximum. Second, the keys are not
dynamically scanned, which would cause the key-
switch wiring to continuously radiate interference.
Instead, the keys are monitored for current draw (only
occurs when pressed), and debounce circuitry only
operates when one or more keys are actually pressed.
The MAX7359 operates with a +1.62V to +3.6V power-
supply voltage. Bypass the power supply to GND with a
0.047µF or higher ceramic capacitor as close as possi-
ble to the device.
The MAX7359 is designed to be insensitive to resis-
tance either in the key switches or the switch routing to
and from the appropriate COLx and ROWx up to 5kΩ.
These controllers are therefore compatible with low-
cost membrane and conductive carbon switches.
There are discharge and charge processes at the switch
closing point during the key scan. To restrict the charg-
ing time at less than that allocated for each individual key
detection, the external capacitance at each port, includ-
ing those from ESD-protection diode, should be less than
100pF for the application where two keys can be simulta-
neously pressed. The above applies only when two keys
pressed share the same column port. The allowed exter-
nal capacitance can be relaxed to 160pF if simultane-
ously pressed keys do not share the same column port.
The sequence machine for key-detection control can
be reset using I
software. During the normal operating mode, bit D7 of
the configuration register 0x01 is 1. To software reset
the MAX7359’s key-detection sequence machine, send
two I
respectively.
D1
2
C commands to set the D7 bit to 0 and then to 1,
D0
A
D7
2
Power-Supply Considerations
C commands implementable by the
D6
D5
ACKNOWLEDGE FROM MAX7359
D4
Switch On-Resistance
N BYTES
DATA BYTE
D3
Port Capacitance
D2
Software Reset
COMMAND BYTE ADDRESS
D1
AUTOINCREMENT
D0
A
CC
. This
P
17
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