LTC2259CUJ-14#PBF Linear Technology, LTC2259CUJ-14#PBF Datasheet - Page 20

LTC2259CUJ-14#PBF

Manufacturer Part Number

LTC2259CUJ-14#PBF

Description

IC ADC 14-BIT 80MSPS 40-QFN

Manufacturer

Linear Technology

Datasheet

1.LTC2259IUJ-14PBF.pdf (32 pages)

Specifications of LTC2259CUJ-14#PBF

Number Of Bits

Sampling Rate (per Second)

80M

Data Interface

Serial, Parallel

Number Of Converters

Power Dissipation (max)

105mW

Voltage Supply Source

Single Supply

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

40-WFQFN Exposed Pad

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Price

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LTC2259CUJ-14#PBF

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LINEAR/凌特

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LTC2261-14

LTC2260-14/LTC2259-14

APPLICATIONS INFORMATION

Encode Input

The signal quality of the encode inputs strongly affects

the A/D noise performance. The encode inputs should

be treated as analog signals—do not route them next to

digital traces on the circuit board. There are two modes

of operation for the encode inputs: the differential encode

mode (Figure 10) and the single-ended encode mode

(Figure 11).

The differential encode mode is recommended for sinu-

soidal, PECL or LVDS encode inputs (Figures 12, 13). The

encode inputs are internally biased to 1.2V through 10k

equivalent resistance. The encode inputs can be taken

above V

is from 1.1V to 1.6V. In the differential encode mode,

ENC

falsely triggering the single-ended encode mode. For good

jitter performance ENC

and fall times.

–

should stay at least 200mV above ground to avoid

ENC

Figure 10. Equivalent Encode Input Circuit

for Differential Encode Mode

Figure 11. Equivalent Encode Input Circuit

for Single-Ended Encode Mode

1.8V TO 3.3V

–

(up to 3.6V), and the common mode range

LTC2261-14

15k

30k

ENC

and ENC

–

LTC2261-14

30k

–

should have fast rise

CMOS LOGIC

DIFFERENTIAL

COMPARATOR

BUFFER

226114 F11

226114 F10

T1: COILCRAFT WBC4 - 1WL

D1: AVAGO HSMS - 2822

RESISTORS, CAPACITORS ARE 0402 PACKAGE SIZE

The single-ended encode mode should be used with CMOS

encode inputs. To select this mode, ENC

to ground and ENC

input. ENC

to 3.3V CMOS logic levels can be used. The ENC

is 0.9V. For good jitter performance ENC

rise and fall times.

Clock Duty Cycle Stabilizer

For good performance the encode signal should have a

50%(±5%) duty cycle. If the optional clock duty cycle

stabilizer circuit is enabled, the encode duty cycle can

vary from 30% to 70% and the duty cycle stabilizer will

maintain a constant 50% internal duty cycle. If the encode

signal changes frequency or is turned off, the duty cycle

stabilizer circuit requires one hundred clock cycles to lock

onto the input clock. The duty cycle stabilizer is enabled

by mode control register A2 (serial programming mode),

or by CS (parallel programming mode).

25Ω

Figure 12. Sinusoidal Encode Drive

Figure 13. PECL or LVDS Encode Drive

can be taken above V

PECL OR

CLOCK

LVDS

0.1μF

is driven with a square wave encode

0.1μF

1:4

ENC

–

100Ω

LTC2261-14

(up to 3.6V) so 1.8V

226114 F13

0.1μF

should have fast

–

ENC

is connected

–

threshold

LTC2261-14

226114fa

226114 F12

LTC2259CUJ-14#PBF Linear Technology, LTC2259CUJ-14#PBF Datasheet - Page 20

LTC2259CUJ-14#PBF

Specifications of LTC2259CUJ-14#PBF

Available stocks

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