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Número de pieza | CY8CMBR3106S | |
Descripción | Controllers | |
Fabricantes | Cypress Semiconductor | |
Logotipo | ||
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No Preview Available ! CY8CMBR3002, CY8CMBR3102
CY8CMBR3106S, CY8CMBR3108
CY8CMBR3110, CY8CMBR3116 Datasheet
CapSense® Express™ Controllers
with SmartSense™ Auto-tuning
16 Buttons, 2 Sliders, Proximity Sensors
CapSense® Express™ Controllers with SmartSense™ Auto-tuning 16 Buttons, 2 Sliders, Proximity Sensors
General Description
The CY8CMBR3xxx CapSense® Express™ controllers enable advanced, yet easy-to-implement, capacitive touch sensing user
interface solutions. This register-configurable family, which supports up to 16 capacitive sensing inputs, eliminates time-consuming
firmware development. These controllers are ideal for implementing capacitive buttons, sliders, and proximity sensing solutions with
minimal development-cycle times.
The CY8CMBR3xxx family features an advanced analog sensing channel and the Capacitive Sigma Delta PLUS (CSD PLUS) sensing
algorithm, which delivers a signal-to-noise ratio (SNR) of greater than 100:1 to ensure touch accuracy even in extremely noisy
environments. These controllers are enabled with Cypress’s SmartSense™ Auto-tuning algorithm, which compensates for
manufacturing variations and dynamically monitors and maintains optimal sensor performance in all environmental conditions. In
addition, SmartSense Auto-tuning enables a faster time-to-market by eliminating the time-consuming manual tuning efforts during
development and production ramp-up.
Advanced features, such as LED brightness control, proximity sensing, and system diagnostics, save development time. These
controllers enable robust liquid-tolerant designs by eliminating false touches due to mist, water droplets, or streaming water. The
CY8CMBR3xxx controllers are offered in a variety of small form factor industry-standard packages.
The ecosystem for the CY8CMBR3xxx family includes development tools—software and hardware—to enable rapid user interface
designs. For example, the EZ-Click Customizer tool is a simple graphical user interface software for configuring the device features
through the I2C interface. This tool also supports CapSense data viewing to monitor system performance and support validation and
debugging. Another tool, the Design Toolbox, simplifies circuit board layout by providing design guidelines and layout
recommendations to optimize sensor size, trace lengths, and parasitic capacitance. To quickly evaluate the CY8CMBR3xxx family
features, use the CY3280-MBR3 Evaluation Kit.
Features
■ Register-configurable CapSense Express controller
❐ No firmware development required
❐ Patented CSD sensing algorithm
❐ High sensitivity (0.1 pF)
• Overlay thickness of up to 15 mm for glass and 5 mm for
plastic
• Proximity solutions
• Sensitivity up to 2 fF per count
❐ Best-in-class >100:1 SNR performance
• Superior noise-immunity performance against conducted
and radiated noise
• Ultra-low radiated emissions
❐ SmartSense Auto-tuning
• Sets and maintains optimal sensor performance during
run time
• Eliminates manual tuning during development and produc-
tion
■ Low-power CapSense
❐ Average current consumption of 22 µA per sensor at 120-ms
refresh interval
❐ Wide parasitic capacitance (CP) range: 5–45 pF
■ Advanced user interface features
❐ Liquid tolerance
❐ User-configurable LED brightness for visual touch feedback
• Up to eight high-sink current GPOs to drive LEDs
❐ Buzzer signal output for audible touch feedback
❐ Flanking Sensor Suppression (FSS) to eliminate false touch-
es in closely spaced buttons
❐ Analog voltage output
❐ Attention line interrupt to the host to indicate any change in
sensor status
■ System diagnostics to detect
❐ Improper value of the modulating capacitor (CMOD)
❐ Out of range sensor parasitic capacitance (CP)
❐ Sensor shorts
■ EZ-Click™ Customizer tool
❐ Simple GUI for device configuration
❐ Data viewing and monitoring for CapSense buttons, sliders,
and proximity sensors
❐ System diagnostics for rapid debug
■ I2C slave
❐ Supports up to 400 kHz
❐ Wake-on-hardware address match
❐ No bus-stalling or clock-stretching during transactions
■ Low-power 1.71-V to 5.5-V operation
❐ Deep Sleep mode with wake-up on interrupt and I2C address
detect
■ Industrial temperature range: –40 °C to +85 °C
■ Package options
❐ 8-pin SOIC (150 mil)
❐ 16-pin SOIC (150 mil)
❐ 16-pin QFN (3 × 3 × 0.6 mm)
❐ 24-pin QFN (4 × 4 × 0.6 mm)
Cypress Semiconductor Corporation • 198 Champion Court
Document Number: 001-85330 Rev. *M
• San Jose, CA 95134-1709 • 408-943-2600
Revised January 13, 2016
1 page CY8CMBR3002, CY8CMBR3102
CY8CMBR3106S, CY8CMBR3108
CY8CMBR3110, CY8CMBR3116 Datasheet
System Overview
A capacitive sensor detects changes in capacitance to determine
the presence of a touch or proximity to conductive objects. The
capacitive sensor can be a capacitive button that replaces the
traditional mechanical buttons, a capacitive slider that replaces
mechanical knobs, or a proximity sensor that replaces an
infrared sensor in a user interface solution. A typical capacitive
user interface system consists of the following:
■ A capacitive sensor
■ An audio-visual output, such as a buzzer or an LED
■ A capacitive sensing controller connected to the sensor
■ A host processor
The capacitive controller connects the sensor and the output to
the host processor through a communication interface, such as
an I2C or a GPO.
The capacitive user interface system serves as a
human-machine interface that takes the user’s touch inputs and
provides audio-visual feedback through a buzzer or an LED.
CY8CMBR3xxx is a family of capacitive sensing controllers,
which senses the change in capacitance based on touch or
proximity, and controls the user interface system accordingly.
The sensing algorithm, built in the controllers, determines the
presence of touch and drives the outputs or sends signals to the
host processor. This algorithm can distinguish between the
signal (based on touch or proximity) and noise, which can be
caused by environmental or electrical conditions.
Figure 2 shows a typical user interface system with capacitive
buttons connected to a CY8CMBR3xxx CapSense Express
controller, which controls the system and also communicates
with the host processor through I2C.
Traditionally, capacitive sensing controllers require firmware
development to perform specific user interface functions and
manual system tuning to achieve optimal performance.
However, the CY8CMBR3xxx CapSense Express family of
controllers does not require any firmware development, acceler-
ating time-to-market. These devices feature SmartSense
Auto-tuning, which eliminates the need for manual tuning,
providing optimal performance even under extremely noisy
conditions.
Figure 2. Typical CapSense System
CapSense Buttons
Linear Slider
Radial Slider
CapSense Sensors
Buzzer
I2C
CY8CMBR3xxx
CapSense Controller
HI
Host Interrupt
Host
Processor
LEDs
Outputs
Document Number: 001-85330 Rev. *M
Page 5 of 42
5 Page CY8CMBR3002, CY8CMBR3102
CY8CMBR3106S, CY8CMBR3108
CY8CMBR3110, CY8CMBR3116 Datasheet
CY8CMBR3106S (16 Sensing Inputs; Sliders Supported)
Table 2. Pin Diagram and Definitions - CY8CMBR3106S
Pin #
1
2
3
Pin Name
CS0/PS0
CS1/PS1
CS2
24-QFN
Type
Description
– CapSense button / proximity
sensor
– CapSense button / proximity
sensor
– CapSense button
If unused
Ground/Ground
Ground/Ground
Ground
Default
Configuration
CS0
CS1
CS2
Pin Diagram
4 CS3
– CapSense button
Ground
5 CMOD
– External modulator capacitor. NA
Connect 2.2 nF/ 5 V/X7R or
NPO capacitor
6
VCC
Power Internal regulator output.
NA
Connect a 0.1-µF decoupling
capacitor if VDD > 1.8 V. If VDD
is 1.71 V to 1.89 V, short this pin
to VDD.
7
VDD
Power Power
NA
CS3
CMOD
VCC
CS0/PS0 1
18 CS15/SLD24
CS1/PS1 2
CS2 3
QFN
17 CS14/SLD23
16 CS13/SLD22
CS3 4 (Top View) 15 CS12/SLD21
CMOD 5
14 CS11/SLD20
VCC 6
13 SLD14
VDD
8 VSS Power Ground
NA
VSS
9 SLD10
– Slider1, segment0
Ground
SLD10
10 SLD11
– Slider1, segment1
Ground
SLD11
11 SLD12
– Slider1, segment2
Ground
SLD12
12 SLD13
– Slider1, segment3
Ground
SLD13
13 SLD14
– Slider1, segment4
Ground
SLD14
14 CS11/SLD20
15 CS12/SLD21
16 CS13/SLD22
17 CS14/SLD23
18 CS15/SLD24[4]
19 CS5/SH/HI
20 CS4
– CapSense button / Slider2,
segment0
– CapSense button / Slider2,
segment1
– CapSense button / Slider2,
segment2
– CapSense button / Slider2,
segment3
– CapSense button / Slider2,
segment4
– CapSense button / shield
electrode/host interrupt.
(SPO1 in the register map)
– CapSense Button
Ground/Ground
Ground/Ground
Ground/Ground
Ground/Ground
Connect to VDD/Connect
to VDD
Refer to Unused SPO Pin
Connection on page 15
Ground
SLD20
SLD21
SLD22
SLD23
SLD24
CS5
CS4
21 I2C SDA DIO I2C Data
Pull up
I2C SDA
22 I2C SCL DIO I2C Clock
Pull up
I2C SCL
23 HI/BUZ
O Host interrupt / buzzer output. Refer to Unused SPO Pin
This pin acts as SPO0 for this Connection on page 15
device (SPO0 in register map).
HI
24
XRES
XRES External reset
Leave open
XRES
25 Center Pad[3] E-pad Connect to VSS for best
mechanical, thermal and
electrical performance
Floating, not connected to
any other signal
E-pad
Legend: I = Analog Input, O = Analog Output, DIO = Digital Input/Output, CS = CapSense Button,
PS = Proximity Sensor, SH = Shield Electrode, BUZ = Buzzer Output, SPO = Special Purpose Output.
Notes
3. The center pad on the QFN package should be connected to ground (VSS) for best mechanical, thermal, and electrical performance. If it is not connected to ground,
it should be left floating without being connected to any other signal.
4. This I/O functions as reset (AXRES) pin during boot-up. Make certain that this pin is not grounded during power-up for the device to boot up properly. After boot-up,
this I/O functions as indicated by the pin name.
Document Number: 001-85330 Rev. *M
Page 11 of 42
11 Page |
Páginas | Total 30 Páginas | |
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