Datasheet Linear Technology LTC1152 — Даташит

Производитель	Linear Technology
Серия	LTC1152

Рельсовые рельсовые Рельсовые рельсовые Zero-Drift Op Amp

Datasheets

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PDF, 228 Кб, Язык: анг., Файл закачен: 31 июл 2016, Страниц: 8
Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp

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Цены

Купить LTC1152 на РадиоЛоцман.Цены — от 213 до 1 249 ₽ 21 предложений от 18 поставщиков Микросхема Буферный усилитель, IC OPAMP CHOPPER 700kHz RRO 8DIP
ЧипСити Россия	LTC1152CN8 Linear Technology	245 ₽
ЗУМ-СМД Россия	LTC1152CS8 Linear Technology	по запросу
Lixinc Electronics Весь мир	LTC1152IS8 Linear Technology	по запросу
AllElco Electronics Весь мир	LTC1152IS8 Linear Technology	по запросу

Корпус / Упаковка / Маркировка

	LTC1152CN8	LTC1152CN8#PBF	LTC1152CS8	LTC1152CS8#PBF	LTC1152CS8#TR	LTC1152CS8#TRPBF	LTC1152IN8	LTC1152IN8#PBF	LTC1152IS8	LTC1152IS8#PBF	LTC1152IS8#TR	LTC1152IS8#TRPBF
N	1	2	3	4	5	6	7	8	9	10	11	12
Корпус		N-8 Габаритный чертеж корпуса		SO-8 Габаритный чертеж корпуса		SO-8 Габаритный чертеж корпуса		N-8 Габаритный чертеж корпуса		SO-8 Габаритный чертеж корпуса		SO-8 Габаритный чертеж корпуса
Код корпуса		N		S8		S8		N		S8		S8
Индекс корпуса		05-08-1510 (N8)		05-08-1610 (S8)		05-08-1610 (S8)		05-08-1510 (N8)		05-08-1610 (S8)		05-08-1610 (S8)
Количество выводов		8		8		8		8		8		8

Параметры

Parameters / Models	LTC1152CN8#PBF	LTC1152CS8#PBF	LTC1152CS8#TRPBF	LTC1152IN8#PBF	LTC1152IS8#PBF	LTC1152IS8#TRPBF
Av Min Stable, V/V	1	1	1	1	1	1
Avol, дБ	70	70	70	70	70	70
CMRR, дБ	130	130	130	130	130	130
Количество каналов	1	1	1	1	1	1
Cload, пФ	1000000	1000000	1000000	1000000	1000000	1000000
Demo Boards	DC417B	DC417B	DC417B	DC417B	DC417B	DC417B
Design Tools	LTspice Model	LTspice Model	LTspice Model	LTspice Model	LTspice Model	LTspice Model
Enoise Density, нВ/rtГц	100	100	100	100	100	100
Экспортный контроль	нет	нет	нет	нет	нет	нет
GBW, МГц	0.7	0.7	0.7	0.7	0.7	0.7
Ibias, нА	0.01	0.01	0.01	0.01	0.01	0.01
Inoise, пА/rtГц	0.6	0.6	0.6	0.6	0.6	0.6
Ios, мкА	0.00002	0.00002	0.00002	0.00002	0.00002	0.00002
Iout, мА	35	35	35	35	35	35
Isupply, мА	2.2	2.2	2.2	2.2	2.2	2.2
LF Enoise, µVPP	2	2	2	2	2	2
Рабочий диапазон температур, °C	от 0 до 70	от 0 до 70	от 0 до 70	от -40 до 85	от -40 до 85	от -40 до 85
Over-the-Top	нет	нет	нет	нет	нет	нет
PSRR, дБ	120	120	120	120	120	120
Rail-to-Rail	Both	Both	Both	Both	Both	Both
Rail-to-Rail In	да	да	да	да	да	да
Rail-to-Rail Out	да	да	да	да	да	да
SR, В/мс	0.5	0.5	0.5	0.5	0.5	0.5
Shutdown	да	да	да	да	да	да
Single Supply	да	да	да	да	да	да
Тип	ZD	ZD	ZD	ZD	ZD	ZD
Voh (from V+), В	0.01	0.01	0.01	0.01	0.01	0.01
Vol (from V-), В	0.01	0.01	0.01	0.01	0.01	0.01
Vos, мВ	0.001	0.001	0.001	0.001	0.001	0.001
Vos TC, мВ/C	0.01	0.01	0.01	0.01	0.01	0.01
Vs макс., В	14	14	14	14	14	14
Vs мин., В	3	3	3	3	3	3

Экологический статус

	LTC1152CN8	LTC1152CN8#PBF	LTC1152CS8	LTC1152CS8#PBF	LTC1152CS8#TR	LTC1152CS8#TRPBF	LTC1152IN8	LTC1152IN8#PBF	LTC1152IS8	LTC1152IS8#PBF	LTC1152IS8#TR	LTC1152IS8#TRPBF
RoHS		Совместим		Совместим		Совместим		Совместим		Совместим		Совместим

Application Notes

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A Standards Lab Grade 20-Bit DAC with 0.1ppm/В° Drift: The Dedicated Art of Digitizing One Part Per Million &mdash AN86
PDF, 540 Кб, Файл опубликован: 1 янв 2001
This publication details a true 1ppm D-to-A converter. Total DC error of this processor corrected DAC remains within 1ppm from 18-32°C, including reference drift. DAC error exclusive of reference drift is substantially better. Construction details and performance verification techniques are included, along with a complete software listing.
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Application Note 86
January 2001
A Standards Lab Grade 20-Bit DAC with 0.1ppm/В°C Drift
The Dedicated Art of Digitizing One Part Per Million
Jim Williams
J. Brubaker
P. Copley
J. Guerrero
F. Oprescu INTRODUCTION
Significant progress in high precision, instrumentation
grade D-to-A conversion has recently occurred. Ten years
ago 12-bit D-to-A converters (DACs) were considered
premium devices. Today, 16-bit DACs are available and
increasingly common in system design. These are true
precision devices with less than 1LSB linearity error and
1ppm/В°C drift.1 Nonetheless, there are DAC applications
that require even higher performance. Automatic test
equipment, instruments, calibration apparatus, laser trimmers, medical electronics and other applications often
require DAC accuracy beyond 16 bits. 18-bit DACs have
been produced in circuit assembly form, although they are
expensive and require frequent calibration. 20 and even
23+ (0.1ppm!) bit DACs are represented by manually
switched Kelvin-Varley dividers. These devices, although …

Design Notes

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Testing Linearity of the LTC2400 24-Bit No Latency Delta SigmaTM A/D Converter Help from the Nineteenth Century &mdash Design Solutions 11
PDF, 51 Кб, Файл опубликован: 1 ноя 1999
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Design Solutions 11
November 1999
Testing Linearity of the LTC2400 24-Bit No Latency в€†ОЈTM
A/D Converter
Help from the Nineteenth Century
by Jim Williams
Introduction
Verifying the linearity of the LTC2400 analog to digital
converter requires special considerations. Typical
nonlinearity is only 2ppm (0.0002%). Bench testing this
necessitates some form of voltage source that produces
equal amplitude output steps for incremental digital inputs. Additionally, for measurement confidence, it is desirable that the source be substantially more linear than
the 2ppm requirement. This is, of course, a stringent
demand and painfully close to the state of the art. follower is required to unload the KVD without introducing
significant loading error. Now, our KVD looks like Figure 3.
10k 2k 400в„¦ 80в„¦ INPUT The most linear вЂњD to AвЂќ converter is also one of the oldest:
Lord KelvinвЂ™s Kelvin-Varley divider (KVD), in its most
developed form, is linear to 0.1ppm. This manually switched
device features ten million individual dial settings arranged in seven decades. It may be thought of as a
3-terminal potentiometer with fixed вЂњend-to-endвЂќ resistance and a 7-decade switched wiper position (Figure 1). R = 100k 80в„¦
OUT
80в„¦ SEVEN-DECADE SWITCHED
WIPER POSITION PERMITS …
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High Accuracy, Differential to Single-Ended Conversion for Wide Range Bipolar Input Signals Bipolar Differential to Single-Ended Converter Drives the LTC2400's Input Rail-to-Rail &mdash Design Solutions 4
PDF, 37 Кб, Файл опубликован: 1 апр 1999
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Design Solutions 4
April 1999
High Accuracy, Differential to Single-Ended Conversion for
Wide Range Bipolar Input Signals
Bipolar Differential to Single-Ended Converter Drives the LTC2400вЂ™s Input Rail-to-Rail
by Kevin R. Hoskins and Derek V. Redmayne
SPECIFICATIONS
VCC = VREF = LT 1236-5; VFS = В±2.45V;
RSOURCE = 175в„¦ (Balanced)
В® PARAMETER
Input Voltage Range
Zero Error CIRCUIT
TOTAL
(MEASURED) LTC2400 (UNITS)
В±2.45
22 V
1.5 ВµV Input Current See Text Nonlinearity В±2.5 4 ppm Input-Referred Noise
(without averaging) 6.5 1.5 ВµVRMS 1 ВµVRMS Resolution (with averaged readings) 22.2 Bits Overall Accuracy (uncalibrated) 17.1 Bits Input-Referred Noise
(averaged 64 readings) Supply Voltage 5 5 V Supply Current 2.1 0.2 mA CMRR 118 dB 0 to 5 V Common Mode Range OPERATION
The circuit in Figure 1 is ideal for wide dynamic range
differential signals in applications that have a 5V supply.
The circuit uses one-half of an LTCВ®1043 to perform a
differential to single-ended conversion over an input common mode range that includes the power supplies. This …
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Low Level, High Accuracy, Bipolar Input Differential to Single-Ended Signal Conversion for 24-Bit A/D Single Supply Differential to Single-Ended Conversion Circuit Amplifies Low Level Bipolar Signals and Maintains the LTC2400's High &mdash Design Solutions 5
PDF, 38 Кб, Файл опубликован: 1 апр 1999
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Design Solutions 5
April 1999
Low Level, High Accuracy, Bipolar Input Differential to
Single-Ended Signal Conversion for 24-Bit A/D
Single Supply Differential to Single-Ended Conversion Circuit Amplifies Low Level
Bipolar Signals and Maintains the LTC2400вЂ™s High Accuracy
by Kevin R. Hoskins and Derek V. Redmayne
SPECIFICATIONS
VCC = VREF = LTВ®1236-5; VFS = В±125mV;
RSOURCE = 175в„¦ (Balanced)
PARAMETER
Input Voltage Range CIRCUIT
LTC2400 TOTAL
(MEASURED)
ONLY (UNITS)
В±125 mV
1.5 ВµV В±2.5 4 ppm 1* 1.5 ВµV Zero Error 25 Input Current See Text Nonlinearity
Input-Referred Noise
(without averaging)
Input-Referred Noise
(averaged 64 readings) 0.12* ВµV Resolution (with averaged readings) 21.0 Bits Overall Accuracy (uncalibrated)** 17.0 Bits Supply Voltage 5 5 V Supply Current 1.2 0.2 mA CMRR 118 dB 0 to 5 V Common Mode Range * Input-referred noise with a gain of 20.
** Does not include gain setting resistors. OPERATION
The circuit in Figure 1 is ideal for wide dynamic range …

Модельный ряд

Серия: LTC1152 (12)

LTC1152CN8 LTC1152CN8#PBF LTC1152CS8 LTC1152CS8#PBF LTC1152CS8#TR LTC1152CS8#TRPBF LTC1152IN8 LTC1152IN8#PBF LTC1152IS8 LTC1152IS8#PBF LTC1152IS8#TR LTC1152IS8#TRPBF

Классификация производителя

Signal Conditioning > Amplifiers > Operational Amplifiers (Op Amps) > Precision Amplifiers (Vos | Zero-Drift Amplifiers | Low Bias Current Amplifiers (Ib < 100pA) | High Voltage Amplifiers (>12V) | Rail-to-Rail Amplifiers