CY8C34_11 CYPRESS [Cypress Semiconductor], CY8C34_11 Datasheet - Page 59

CY8C34_11

Manufacturer Part Number

CY8C34_11

Description

Manufacturer

CYPRESS [Cypress Semiconductor]

Datasheet

1.CY8C34_11.pdf (126 pages)

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8.7 CapSense

The CapSense system provides a versatile and efficient means

for measuring capacitance in applications such as touch sense

buttons, sliders, proximity detection, etc. The CapSense system

uses a configuration of system resources, including a few

hardware functions primarily targeted for CapSense. Specific

resource usage is detailed in the CapSense component in PSoC

Creator.

A capacitive sensing method using a delta-sigma modulator

(CSD) is used. It provides capacitance sensing using a switched

capacitor technique with a delta-sigma modulator to convert the

sensing current to a digital code.

8.8 Temp Sensor

Die temperature is used to establish programming parameters

for writing flash. Die temperature is measured using a dedicated

sensor based on a forward biased transistor. The temperature

sensor has its own auxiliary ADC.

8.9.1 Current DAC

The current DAC (IDAC) can be configured for the ranges 0 to

32 µA, 0 to 256 µA, and 0 to 2.048 mA. The IDAC can be

configured to source or sink current.

8.9.2 Voltage DAC

For the voltage DAC (VDAC), the current DAC output is routed

through resistors. The two ranges available for the VDAC are 0

to 1.024 V and 0 to 4.096 V. In voltage mode any load connected

to the output of a DAC should be purely capacitive (the output of

the VDAC is not buffered).

Document Number: 001-53304 Rev. *K

Reference

Source

Figure 8-12. DAC Block Diagram

Scaler

8.9 DAC

The CY8C34 parts contain two Digital to Analog Convertors

(DACs). Each DAC is 8-bit and can be configured for either

voltage or current output. The DACs support CapSense, power

supply regulation, and waveform generation. Each DAC has the

following features:

8.10 Up/Down Mixer

In continuous time mode, the SC/CT block components are used

to build an up or down mixer. Any mixing application contains an

input signal frequency and a local oscillator frequency. The

polarity of the clock, Fclk, switches the amplifier between

inverting or noninverting gain. The output is the product of the

input and the switching function from the local oscillator, with

frequency components at the local oscillator plus and minus the

signal frequency (Fclk + Fin and Fclk – Fin) and reduced-level

frequency components at odd integer multiples of the local

oscillator frequency. The local oscillator frequency is provided by

the selected clock source for the mixer.

Continuous time up and down mixing works for applications with

input signals and local oscillator frequencies up to 1 MHz.

Adjustable voltage or current output in 255 steps

Programmable step size (range selection)

Eight bits of calibration to correct ± 25 percent of gain error

Source and sink option for current output

8 Msps conversion rate for current output

1 Msps conversion rate for voltage output

Monotonic in nature

Data and strobe inputs can be provided by the CPU or DMA,

or routed directly from the DSI

Dedicated low-resistance output pin for high-current mode

1x , 8x , 64x

source

sink

Range

PSoC

Vout

3: CY8C34 Family

Iout

Data Sheet

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