MCP4651-503E/ST Microchip Technology, MCP4651-503E/ST Datasheet - Page 66

MCP4651-503E/ST

Manufacturer Part Number

MCP4651-503E/ST

Description

IC DGTL POT 50K 256TAPS 14-TSSOP

Manufacturer

Microchip Technology

Datasheet

1.MCP4531-104EMS.pdf (88 pages)

Specifications of MCP4651-503E/ST

Package / Case

14-TSSOP

Taps

257

Resistance (ohms)

50K

Number Of Circuits

Temperature Coefficient

150 ppm/°C Typical

Memory Type

Volatile

Interface

I²C, 2-Wire Serial

Voltage - Supply

1.8 V ~ 5.5 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Resistance In Ohms

50K

Number Of Pots

Dual

Taps Per Pot

256

Resistance

50 KOhms

Wiper Memory

Volatile

Digital Interface

Serial (2-Wire, I2C)

Operating Supply Voltage

2.5 V or 3.3 V or 5 V

Supply Current

0.0025 mA (Typ)

Maximum Operating Temperature

+ 125 C

Minimum Operating Temperature

- 40 C

Mounting Style

SMD/SMT

Supply Voltage (max)

5.5 V

Supply Voltage (min)

1.8 V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

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8.5

In the design of a system with the MCP4XXX devices,

the following considerations should be taken into

account:

•

8.5.1

The typical application will require a bypass capacitor

in order to filter high-frequency noise, which can be

induced onto the power supply's traces. The bypass

capacitor helps to minimize the effect of these noise

sources on signal integrity.

appropriate bypass strategy.

In this example, the recommended bypass capacitor

value is 0.1 µF. This capacitor should be placed as

close (within 4 mm) to the device power pin (V

possible.

The power source supplying these devices should be

as clean as possible. If the application circuit has

separate digital and analog power supplies, V

FIGURE 8-7:

Connections.

DS22096A-page 66

Power Supply Considerations

Layout Considerations

should reside on the analog plane.

Design Considerations

POWER SUPPLY

CONSIDERATIONS

0.1 µF

Typical Microcontroller

Figure 8-7

0.1 µF

SDA

SCL

illustrates an

) as

and

8.5.2

Inductively-coupled AC transients and digital switching

noise can degrade the input and output signal integrity,

potentially masking the MCP4XXX’s performance.

Careful board layout minimizes these effects and

increases the Signal-to-Noise Ratio (SNR). Multi-layer

boards utilizing a low-inductance ground plane,

isolated inputs, isolated outputs and proper decoupling

are critical to achieving the performance that the silicon

is capable of providing. Particularly harsh environ-

ments may require shielding of critical signals.

If low noise is desired, breadboards and wire-wrapped

boards are not recommended.

8.5.3

Characterization curves of the resistor temperature

coefficient (Tempco) are shown in

Figure

These curves show that the resistor network is

designed to correct for the change in resistance as

temperature increases. This technique reduces the

end to end change is R

8.5.4

High Voltage support (V

is for compatibility with the non-volatile devices..

2-25,

LAYOUT CONSIDERATIONS

RESISTOR TEMPCO

HIGH VOLTAGE TOLERANT PINS

Figure

2-38, and

IHH

resistance.

) on the Serial Interface pins

Figure

2-51.

Figure

2-12,

MCP4651-503E/ST Microchip Technology, MCP4651-503E/ST Datasheet - Page 66

MCP4651-503E/ST

Specifications of MCP4651-503E/ST

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