CY8C5386LTI-005 Cypress Semiconductor Corp, CY8C5386LTI-005 Datasheet - Page 55

CY8C5386LTI-005

Manufacturer Part Number

CY8C5386LTI-005

Description

Manufacturer

Cypress Semiconductor Corp

Datasheet

1.CY8C5386LTI-005.pdf (97 pages)

Specifications of CY8C5386LTI-005

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8.11 Sample and Hold

The main application for a sample and hold, is to hold a value

stable while an ADC is performing a conversion. Some applica-

tions require multiple signals to be sampled simultaneously, such

as for power calculations (V and I).

Figure 8-12. Sample and Hold Topology

(Φ1 and Φ2 are opposite phases of a clock)

8.11.1 Down Mixer

The S+H can be used as a mixer to down convert an input signal.

This circuit is a high bandwidth passive sample network that can

sample input signals up to 14 MHz. This sampled value is then

held using the opamp with a maximum clock rate of 4 MHz. The

output frequency is at the difference between the input frequency

and the highest integer multiple of the Local Oscillator that is less

than the input.

8.11.2 First Order Modulator - SC Mode

A first order modulator is constructed by placing the switched

capacitor block in an integrator mode and using a comparator to

provide a 1-bit feedback to the input. Depending on this bit, a

reference voltage is either subtracted or added to the input

signal. The block output is the output of the comparator and not

the integrator in the modulator case. The signal is downshifted

and buffered and then processed by a decimator to make a

delta-sigma converter or a counter to make an incremental

converter. The accuracy of the sampled data from the first-order

modulator is determined from several factors.

The main application for this modulator is for a low frequency

ADC with high accuracy. Applications include strain gauges,

thermocouples, precision voltage, and current measurement

Document Number: 001-55035 Rev. *F

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PRELIMINARY

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9. Programming, Debug Interfaces,

The Cortex-M3 has internal debugging components, tightly

integrated with the CPU, providing the following features:

PSoC devices include extensive support for programming,

testing, debugging, and tracing both hardware and firmware.

Four interfaces are available: JTAG, SWD, SWV, and

TRACEPORT. JTAG and SWD support all programming and

debug features of the device. JTAG also supports standard JTAG

scan chains for board level test and chaining multiple JTAG

devices for programming or testing. The SWV and TRACEPORT

provide trace output from the DWT, ETM, and ITM.

TRACEPORT is faster but uses more pins. SWV is slower but

uses only one pin.

Cortex-M3 debug and trace functionality enables full device

debugging in the final system using the standard production

device. It does not require special interfaces, debugging pods,

simulators, or emulators. Only the standard programming

connections are required to fully support debug.

The PSoC Creator IDE software provides fully integrated

programming and debug support for PSoC devices. The low cost

MiniProg3 programmer and debugger is designed to provide full

programming and debug support of PSoC devices in conjunction

with the PSoC Creator IDE. PSoC JTAG, SWD, and SWV inter-

faces are fully compatible with industry standard third party tools.

All Cortex-M3 debug and trace modules are disabled by default

and can only be enabled in firmware. If not enabled, the only way

to reenable them is to erase the entire device, clear flash

protection, and reprogram the device with new firmware that

enables them. Disabling debug and trace features, robust flash

protection, and hiding custom analog and digital functionality

inside the PSoC device provide a level of security not possible

with multichip application solutions. Additionally, all device inter-

faces can be permanently disabled (Device Security) for applica-

tions concerned about phishing attacks due to a maliciously

reprogrammed device. Permanently disabling interfaces is not

recommended in most applications because the designer then

cannot access the device. Because all programming, debug, and

test interfaces are disabled when Device Security is enabled,

PSoCs with Device Security enabled may not be returned for

failure analysis.

JTAG or SWD access

Flash Patch and Breakpoint (FPB) block for implementing

breakpoints and code patches

Data Watchpoint and Trigger (DWT) block for implementing

watchpoints, trigger resources, and system profiling

Embedded Trace Macrocell (ETM) for instruction trace

Instrumentation Trace Macrocell (ITM) for support of printf-style

debugging

PSoC

Resources

5: CY8C53 Family Data Sheet

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