LTC1065CSW#TRMPBF Linear Technology, LTC1065CSW#TRMPBF Datasheet - Page 10

LTC1065CSW#TRMPBF

Manufacturer Part Number

LTC1065CSW#TRMPBF

Description

Manufacturer

Linear Technology

Datasheet

1.LTC1065CSWTRMPBF.pdf (16 pages)

Specifications of LTC1065CSW#TRMPBF

Architecture

Switched Capacitor

Order Filter (max)

5th

Single Supply Voltage (typ)

5/9/12/15V

Dual Supply Voltage (typ)

±5V

Power Supply Requirement

Single/Dual

Single Supply Voltage (min)

4.75V

Single Supply Voltage (max)

16V

Dual Supply Voltage (min)

±2.375V

Dual Supply Voltage (max)

±8V

Operating Temperature (min)

Operating Temperature (max)

70C

Operating Temperature Classification

Commercial

Package Type

SOIC W

Filter Type

Low Pass Filter

Lead Free Status / RoHS Status

Compliant

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The above data is valid for clock frequencies up to 800kHz, 900kHz, 1MHz, for

Clock Feedthrough

Clock feedthrough is defined as the RMS value of the clock

frequency and its harmonics which are present at the

filter’s output pin. The clock feedthrough is tested with the

filter input grounded and it depends on the quality of the

PC board layout and power supply decoupling. Any para-

sitic switching transients during the rise and fall of the

incoming clock, are not part of the clock feedthrough

specifications; their amplitude strongly depends on scope

probing techniques as well as ground quality and power

supply bypassing. For a power supply V

feedthrough of the LTC1065 is 50µV

the clock feedthrough approaches 75µV

and 9 show a typical scope photo of the LTC1065 output

pin when the input pin is grounded. The filter cutoff

frequency was 1kHz, while scope bandwidth was chosen

to be 1MHz so that switching transients above the 100kHz

clock frequency would show.

Wideband Noise

The wideband noise data is used to determine the operat-

ing signal-to-noise ratio at a given distortion level. The

wideband noise (µV

of the clock frequency and excludes the clock feedthrough.

The LTC1065’s typical wideband noise is 80µV

9 shows the same scope photo as Figure 8 but with a more

sensitive vertical scale. The clock feedthrough is imbed-

ded in the filter’s wideband noise. The peak-to-peak wide-

band noise of the filter can be clearly seen; it is approxi-

mately 420µV

wideband noise of the part multiplied by a crest factor

of 5.25.

Table 3. CMR Data, f

POWER SUPPLY

LTC1065

= ±2.5V, ±5V, ±7.5V respectively.

PPLICATI

±2.5V

±5V

±7.5V

P-P

±1.8V

∆V

±4V

±6V

. Note that 420µV

CLK

RMS

= 100kHz

– 40°C

84dB

82dB

80dB

) is nearly independent of the value

I FOR ATIO

83dB

78dB

77dB

25°C

P-P

RMS

equals the 80µV

85°C

80dB

77dB

76dB

; for V

= ±5V, the clock

RMS

. Figures 8

RMS

= ±7.5V,

83dB

78dB

80dB

25°C

. Figure

Nulled)

RMS

Aliasing

Aliasing is an inherent phenomenon of sampled data

filters. It primarily occurs when the frequency of an input

signal approaches the sampling frequency. For the

LTC1065, an input signal whose frequency is in the range

of f

passband and stopband. Table 4 shows details.

Example:

CLK

Figure 9. LTC1065 Output Clock Feedthrough + Noise

Figure 8. LTC1065 Output Clock Feedthrough + Noise

±6% will generate an alias signal into the filter’s

CLK

= 100kHz, f

LTC1065, f

ALIAS

= (19.6kHz, 100mV

= (400Hz, 3.16mV

= 1kHz, V

CLK

= ±5V, 1MHz SCOPE BW

2µs/DIV

= ±5V, 1MHz SCOPE BW

2µs/DIV

= 20kHz, f

RMS

)

= 200kHz,

)

1065F08

1063 F09

1065fb

LTC1065CSW#TRMPBF Linear Technology, LTC1065CSW#TRMPBF Datasheet - Page 10

LTC1065CSW#TRMPBF

Specifications of LTC1065CSW#TRMPBF

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