LTC2355IMSE-14#PBF,LTC2355IMSE-14#PBF pdf中文资料,LTC2355IMSE-14#PBF引脚图,LTC2355IMSE-14#PBF电路-Datasheet-电子工程世界

文档预览

LTC2355-12/LTC2355-14

Serial 12-Bit/14-Bit, 3.5Msps

Sampling ADCs with Shutdown

Features

Description

The LTC

2355-12/LTC2355-14 are 12-bit/14-bit, 3.5Msps

serial ADCs with differential inputs. The devices draw

only 5.5mA from a single 3.3V supply and come in a

tiny 10-lead MSOP package. A Sleep shutdown feature

further reduces power consumption to 13µW. The com-

bination of speed, low power and tiny package makes the

LTC2355-12/LTC2355-14 suitable for high speed, portable

applications.

The 80dB common mode rejection allows users to eliminate

ground loops and common mode noise by measuring

signals differentially from the source.

The devices convert 0V to 2.5V unipolar inputs differentially.

The absolute voltage swing for A

IN+

and A

IN–

extends from

ground to the supply voltage.

The serial interface sends out the conversion results during

the 16 clock cycles following a CONV rising edge for com-

patibility with standard serial interfaces. If two additional

clock cycles for acquisition time are allowed after the data

stream in between conversions, the full sampling rate of

3.5Msps can be achieved with a 63MHz clock.

LT, LTC, LTM, Linear Technology and the Linear logo are registered trademarks of Linear

Technology Corporation. All other trademarks are the property of their respective owners.

3.5Msps Conversion Rate

74.2dB SINAD at 14-Bits, 71.1dB SINAD at 12-Bits

Low Power Dissipation: 18mW

3.3V Single Supply Operation

2.5V Internal Bandgap Reference can be Overdriven

3-Wire SPI-Compatible Serial Interface

Sleep (13µW) Shutdown Mode

Nap (4mW) Shutdown Mode

80dB Common Mode Rejection

0V to 2.5V Unipolar Input Range

Tiny 10-Lead MSOP Package

applications

Communications

Data Acquisition Systems

Uninterrupted Power Supplies

Multiphase Motor Control

Multiplexed Data Acquisition

RFID

Block Diagram

10µF 3.3V

–50

THREE-

STATE

SERIAL

OUTPUT

PORT

10µF

GND

REF

2.5V

REFERENCE

TIMING

LOGIC

EXPOSED PAD

SCK

2355 TA01

THD, 2nd, 3rd and SFDR

vs Input Frequency

–56

–62

SDO

THD, 2nd, 3rd (dB)

–68

–74

–80

–86

–92

–98

–104

–110

0.1

FREQUENCY (MHz)

100

2355 G02

LTC2355-14

IN+

IN–

14-BIT LATCH

S&H

14-BIT ADC

THD

2nd

3rd

–

CONV

2355fa

LTC2355-12/LTC2355-14

aBsolute maximum ratings

(Notes 1, 2)

pin conFiguration

TOP VIEW

IN+

IN–

REF

GND 4

GND 5

GND

CONV

SCK

SDO

GND

Supply Voltage (V

) ..................................................4V

Analog and V

REF

Input Voltages

(Note 3) ....................................–0.3V to (V

+ 0.3V)

Digital Input Voltages ................... – 0.3V to (V

+ 0.3V)

Digital Output Voltage ...................– 0.3V to (V

+ 0.3V)

Power Dissipation ...............................................100mW

Operation Temperature Range

LTC2355C-12/LTC2355C-14 .................... 0°C to 70°C

LTC2355I-12/LTC2355I-14 ...................– 40°C to 85°C

Storage Temperature Range .................. –65°C to 150°C

Lead Temperature (Soldering, 10 sec)................... 300°C

MSE PACKAGE

10-LEAD PLASTIC MSOP

JMAX

= 125°C,

= 40°C/W

EXPOSED PAD (PIN 11) IS GND, MUST BE SOLDERED TO PCB

orDer inFormation

LEAD FREE FINISH

LTC2355CMSE-12#PBF

LTC2355IMSE-12#PBF

LTC2355CMSE-14#PBF

LTC2355IMSE-14#PBF

TAPE AND REEL

PART MARKING*

PACKAGE DESCRIPTION

10-Lead Plastic MSOP

TEMPERATURE RANGE

0°C to 70°C

–40°C to 85°C

0°C to 70°C

–40°C to 85°C

LTC2355CMSE-12#TRPBF LTCVX

LTC2355IMSE-12#TRPBF LTCVX

LTC2355CMSE-14#TRPBF LTCVY

LTC2355IMSE-14#TRPBF LTCVY

Consult LTC Marketing for parts specified with wider operating temperature ranges. *The temperature grade is identified by a label on the shipping container.

Consult LTC Marketing for information on non-standard lead based finish parts.

For more information on lead free part marking, go to:

http://www.linear.com/leadfree/

For more information on tape and reel specifications, go to:

http://www.linear.com/tapeandreel/

converter characteristics

PARAMETER

Resolution (No Missing Codes)

Integral Linearity Error

Offset Error

Gain Error

Gain Tempco

(Notes 4, 5, 18)

(Notes 4, 18)

(Note 4, 18)

CONDITIONS

The

denotes the specifications which apply over the full operating

temperature range, otherwise specifications are at T

= 25°C. With internal reference. V

= 3.3V.

LTC2355-12

MIN

LTC2355-14

MAX

MIN

–4

–20

–80

TYP

±0.5

±2

±10

±15

±1

MAX

UNITS

Bits

LSB

ppm/°C

TYP

±0.25

±1

±5

±15

±1

–2

–10

–30

Internal Reference (Note 4)

External Reference

2355fa

LTC2355-12/LTC2355-14

analog input

SYMBOL

ACQ

JITTER

CMRR

PARAMETER

Analog Differential Input Range (Notes 3, 8, 9)

Analog Common Mode + Differential

Input Range (Note 10)

Analog Input Leakage Current

Analog Input Capacitance

Sample-and-Hold Acquisition Time

Sample-and-Hold Aperture Delay Time

Sample-and-Hold Aperture Delay Time Jitter

Analog Input Common Mode Rejection Ratio

= 1MHz, V

= 0V to 3V

= 100MHz, V

= 0V to 3V

(Note 19)

(Note 6)

The

denotes the specifications which apply over the full operating temperature range, otherwise

specifications are at T

= 25°C. With internal reference. V

= 3.3V.

CONDITIONS

3.1V ≤ V

≤ 3.6V

MIN

TYP

0 to 2.5

0 to V

MAX

UNITS

0.3

–60

–15

µA

Dynamic accuracy

SYMBOL

SINAD

THD

SFDR

IMD

PARAMETER

Signal-to-Noise Plus

Distortion Ratio

Total Harmonic

Distortion

Spurious Free

Dynamic Range

Intermodulation

Distortion

Code-to-Code

Transition Noise

The

denotes the specifications which apply over the full operating temperature range,

otherwise specifications are at T

= 25°C with external reference = 2.55V. V

= 3.3V.

LTC2355-12

CONDITIONS

100kHz Input Signal

1.4MHz Input Signal

100kHz First 5 Harmonics

1.4MHz First 5 Harmonics

100kHz Input Signal

1.4MHz Input Signal

1.25V to 2.5V 1.25MHz into A

IN+

, 0V to 1.25V,

1.2MHz into A

IN–

REF

= 2.5V (Note 18)

LTC2355-14

MAX

MIN

–76

TYP

74.2

73.8

–86

–82

–78

MAX

UNITS

LSB

RMS

MHz

MIN

TYP

71.1

–86

–82

0.25

Full Power Bandwidth V

= 2.5V

P-P

, SDO = 11585LSB

P-P

(Note 15)

Full Linear Bandwidth S/(N + D) ≥ 68dB

internal reFerence characteristics

PARAMETER

REF

Output Voltage

REF

Output Tempco

REF

Line Regulation

REF

Output Resistance

REF

Settling Time

External V

REF

Input Range

= 3.1V to 3.6V, V

REF

= 2.5V

Load Current = 0.5mA

REF

= 10µF

CONDITIONS

OUT

= 0

The

denotes the specifications which apply over the

full operating temperature range, otherwise specifications are at T

= 25°C, V

= 3.3V.

MIN

TYP

2.5

600

0.2

2.55

MAX

UNITS

ppm/°C

µV/V

2355fa

LTC2355-12/LTC2355-14

Digital inputs anD Digital outputs

SYMBOL

SOURCE

SINK

PARAMETER

High Level Input Voltage

Low Level Input Voltage

Digital Input Current

Digital Input Capacitance

High Level Output Voltage

Low Level Output Voltage

Hi-Z Output Leakage D

OUT

Hi-Z Output Capacitance D

OUT

Output Short-Circuit Source Current

Output Short-Circuit Sink Current

OUT

= 0V, V

= 3.3V

OUT

= V

= 3.3V

= 3.3V, I

OUT

= –200µA

= 3.1V, I

OUT

= 160µA

= 3.1V, I

OUT

= 1.6mA

OUT

= 0V to V

The

denotes the specifications which apply over the

full operating temperature range, otherwise specifications are at T

= 25°C, V

= 3.3V.

CONDITIONS

= 3.6V

= 3.1V

= 0V to V

MIN

2.4

TYP

MAX

0.6

±10

UNITS

µA

2.5

2.9

0.05

0.10

0.4

±10

power requirements

SYMBOL

PARAMETER

Supply Voltage

Supply Current

The

denotes the specifications which apply over the full operating temperature

range, otherwise specifications are at T

= 25°C. (Note 17)

CONDITIONS

Active Mode

Nap Mode

Sleep Mode (LTC2355-12)

Sleep Mode (LTC2355-14)

MIN

3.1

TYP

3.3

5.5

1.1

MAX

3.6

1.5

UNITS

µA

Power Dissipation

2355fa

LTC2355-12/LTC2355-14

timing characteristics

SYMBOL

PARAMETER

SAMPLE(MAX)

Maximum Sampling Rate per Channel

(Conversion Rate)

THROUGHPUT

Minimum Sampling Period (Conversion + Acquisiton Period)

SCK

CONV

Clock Period

Conversion Time

Minimum High or Low SCLK Pulse Width

CONV to SCK Setup Time

Nearest SCK Edge Before CONV

Minimum High or Low CONV Pulse Width

SCK↑ to Sample Mode

CONV↑ to Hold Mode

16th SCK↑ to CONV↑ Interval (Affects Acquisition Period)

Delay from SCK to Valid Bits 0 Through 13

SCK↑ to Hi-Z at SDO

Previous SDO Bit Remains Valid After SCK

REF

Settling Time After Sleep-to-Wake Transition

(Note 16)

(Note 6)

(Notes 6, 10)

(Note 6)

(Notes 6, 11)

(Notes 6, 7, 13)

(Notes 6, 12)

(Note 14)

The

denotes the specifications which apply over the full operating temperature

range, otherwise specifications are at T

= 25°C. V

= 3.3V.

CONDITIONS

MIN

3.5

TYP

MAX

UNITS

MHz

286

15.872

1.2

10000

SCLK cycles

Note 1:

Stresses beyond those listed under Absolute Maximum Ratings

may cause permanent damage to the device. Exposure to any Absolute

Maximum Rating condition for extended periods may affect device

reliability and lifetime.

Note 2:

All voltage values are with respect to GND.

Note 3:

When these pins are taken below GND or above V

, they will be

clamped by internal diodes. This product can handle input currents greater

than 100mA below GND or greater than V

without latchup.

Note 4:

Offset and full-gain specifications are measured for a single-ended

IN+

input with A

IN–

grounded and using the internal 2.5V reference.

Note 5:

Integral linearity is tested with an external 2.55V reference and is

defined as the deviation of a code from the straight line passing through

the actual endpoints of a transfer curve. The deviation is measured from

the center of quantization band.

Note 6:

Guaranteed by design, not subject to test.

Note 7:

Recommended operating conditions.

Note 8:

The analog input range is defined for the voltage difference

between A

IN+

and A

IN–

Note 9:

The absolute voltage at A

IN+

and A

IN–

must be within this range.

Note 10:

If less than 3ns is allowed, the output data will appear one

clock cycle later. It is best for CONV to rise half a clock before SCK, when

running the clock at rated speed.

Note 11:

Not the same as aperture delay. Aperture delay is smaller (1ns)

because the 2.2ns delay through the sample-and-hold is subtracted from

the CONV to Hold mode delay.

Note 12:

The rising edge of SCK is guaranteed to catch the data coming

out into a storage latch.

Note 13:

The time period for acquiring the input signal is started by the

16th rising clock and it is ended by the rising edge of convert.

Note 14:

The internal reference settles in 2ms after it wakes up from Sleep

mode with one or more cycles at SCK and a 10µF capacitive load.

Note 15:

The full power bandwidth is the frequency where the output code

swing drops to 3dB with a 2.5V

P-P

input sine wave.

Note 16:

Maximum clock period guarantees analog performance during

conversion. Output data can be read with an arbitrarily long clock.

Note 17:

= 3.3V, fSAMPLE = 3.5Msps.

Note 18:

The LTC2355-14 is measured and specified with 14-bit resolution

(1LSB = 152µV) and the LTC2355-12 is measured and specified with

12-bit resolution (1LSB = 610µV).

Note 19:

The sampling capacitor at each input accounts for 4.1pF of the

input capacitance.

2355fa