ADP5585CP-EVALZ Analog Devices, ADP5585CP-EVALZ Datasheet - Page 8

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ADP5585CP-EVALZ

Manufacturer Part Number
ADP5585CP-EVALZ
Description
Interface Development Tools LFCSP Evaluation Board
Manufacturer
Analog Devices
Series
ADP5585r
Datasheet

Specifications of ADP5585CP-EVALZ

Rohs
yes
Product
Evaluation Boards
Tool Is For Evaluation Of
ADP5585
Interface Type
I2C
Operating Supply Voltage
1.8 V to 3 V
Factory Pack Quantity
1
ADP5585
DEVICE ENABLE
When sufficient voltage is applied to VDD and the RST pin is
driven with a logic high level, the ADP5585 starts up in standby
mode with all settings at default. The user can configure the
device via the I
ADP5585 enters a reset state and all settings return to default.
The RST pin features a debounce filter.
If using the ADP5585ACBZ-01-R7 or ADP5585ACPZ-01-R7
device model, the RST pin acts as an extra row pin. Without a
reset pin, the only method to reset the device is by bringing
VDD below the UVLO threshold.
DEVICE OVERVIEW
The ADP5585 contains 10 multiconfigurable input/output pins.
Each pin can be programmed to enable the device to carry out
its various functions, as follows:
All 10 input/output pins have an I/O structure as shown in
Figure 6.
Keypad matrix decoding (five-column by five-row matrix
maximum).
General-purpose I/O expansion (up to 10 inputs/outputs).
PWM generation.
Logic function building blocks (up to three inputs and one
output).
Two reset generators.
DRIVE
I/O
2
C interface. When the RST pin is low, the
VDD
Figure 6. I/O Structure
100kΩ
DEBOUNCE
300kΩ
300kΩ
I/O
Rev. C | Page 8 of 40
Each I/O can be pulled up with a 100 kΩ or 300 kΩ resistor or
pulled down with a 300 kΩ resistor. For logic output drive, each
I/O has a 5 mA PMOS source and a 10 mA NMOS sink for a push-
pull type output. For open-drain output situations, the 5 mA
PMOS source is not enabled. For logic input applications, each
I/O can be sampled directly or, alternatively, sampled through a
debounce filter.
The I/O structure shown in Figure 6 allows for all GPI and GPO
functions, as well as PWM and clock divide functions. For key
matrix scan and decode, the scanning circuit uses the 100 kΩ or
300 kΩ resistor for pulling up keypad row pins and the 10 mA
NMOS sinks for grounding keypad column pins (see the Key
Scan Control section for details about key decoding).
Configuration of the device is carried out by programming an
array of internal registers via the I
device status and pending interrupts can be flagged to an
external processor by using the INT pin.
The ADP5585 is offered with three feature sets. Table 5 lists the
options that are available for each model of the ADP5585.
Table 5. Matrix Options by Device Model
Model
ADP5585ACBZ-00-R7
ADP5585ACBZ-01-R7
ADP5585ACBZ-02-R7
ADP5585ACBZ-04-R7
ADP5585ACPZ-00-R7
ADP5585ACPZ-01-R7
ADP5585ACPZ-03-R7
1
Special function pins are defined as R0, R3, R4, and C4. See Table 4 for
details.
Description
GPIO pull up (default option)
5-row × 5-column matrix
Row 5 added to GPIOs
6-row × 5-column matrix
No pull-up resistors to special function
pins
5-row × 5-column matrix
Pull-down resistors to all GPIO pins on
start-up
5-row × 5-column matrix
GPIO pull up (default option)
5-row × 5-column matrix
Row 5 added to GPIOs
6-row × 5-column matrix
Alternate I
5-row × 5-column matrix
1
2
C interface. Feedback of
2
C address (0x30)
Data Sheet

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