MCP4441-503E/ML Microchip Technology, MCP4441-503E/ML Datasheet - Page 76

MCP4441-503E/ML

Manufacturer Part Number

MCP4441-503E/ML

Description

IC DGTL POT 129TAPS QUAD 20QFN

Manufacturer

Microchip Technology

Datasheet

1.MCP4441-103EML.pdf (100 pages)

Specifications of MCP4441-503E/ML

Taps

129

Resistance (ohms)

50K

Number Of Circuits

Temperature Coefficient

150 ppm/°C Typical

Memory Type

Non-Volatile

Interface

I²C, 2-Wire Serial

Voltage - Supply

2.7 V ~ 5.5 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

20-VFQFN Exposed Pad

End To End Resistance

50kohm

Track Taper

Linear

Resistance Tolerance

Â± 20%

No. Of Steps

129

Supply Voltage Range

2.7V To 5.5V

Control Interface

I2C

No. Of Pots

Quad

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

MCP4441-503E/ML

Manufacturer:

Microchip Technology

Quantity:

135

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MCP444X/446X

8.5

In audio volume control applications, the use of

logarithmic steps is desirable since the human ear

hears in a logarithmic manner. The use of a linear

potentiometer can approximate a log potentiometer,

but with fewer steps. An 8-bit potentiometer can

achieve fourteen 3 dB log steps plus a 100% (0 dB)

and a mute setting.

Figure 8-7

MCP44x1 resistor networks being used to attenuate an

input signal. In this case, the attenuation will be ground

referenced. Terminal B can be connected to a common

mode voltage, but the voltages on the A, B and Wiper

terminals must not exceed the MCP44x1’s V

voltage limits.

FIGURE 8-7:

Diagram - Ground Referenced.

Equation 8-1

dB gain ratios for the digital potentiometer, while

Equation 8-2

resistance dB gain ratios. These two equations assume

that the B terminal is connected to ground.

If terminal B is not directly resistively connected to

ground, then this terminal B to ground resistance

Equation 8-3

DS22265A-page 76

B2GND

) must be included into the calculation.

Implementing Log Steps with a

Linear Digital Potentiometer

shows a block diagram of one of the

shows this equation.

shows the equation to calculate voltage

shows

P0A

MCP44X1

Signal Attenuation Block

the

P0B

P0W

equation

calculate

EQUATION 8-1:

EQUATION 8-2:

EQUATION 8-3:

Table 8-1

digital potentiometers to implement the log attenuation.

The table shows the wiper codes for -3 dB, -2 dB, and

-1 dB attenuation steps. This table also shows the

calculated attenuation based on the wiper code’s linear

step. Calculated attenuation values less than the

desired attenuation are shown with

wiper code values, the attenuation may skip a step, if

this occurs the next attenuation value is colored

magenta

in the -3 dB column the -48 dB value is highlighted

since the -45 dB step could not be implemented (there

are no wiper codes between 2 and 1).

Terminal B connected to Ground (see

Terminal B through R

L = 20 * log

to highlight that a skip occurred. For example,

shows the codes that can be used for 8-bit

L = 20 * log

-3

-2

-1

( (R

B2GND

/ R

dB CALCULATIONS

(VOLTAGE)

dB CALCULATIONS

(RESISTANCE) - CASE 1

dB CALCULATIONS

(RESISTANCE) - CASE 2

+ R

OUT

0.70795

0.79433

0.89125

B2GND

)

to Ground

/ V

OUT

) / (R

Ratio

/ V

red

Figure

)

text. At lower

+ R

B2GND

8-7)

) )

MCP4441-503E/ML Microchip Technology, MCP4441-503E/ML Datasheet - Page 76

MCP4441-503E/ML

Specifications of MCP4441-503E/ML

Available stocks

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