JAJSD49A April   2017  – April 2017 ADS8586S

PRODUCTION DATA.  

  1. 特長
  2. アプリケーション
  3. 概要
  4. 改訂履歴
  5. Device Family Comparison Table
  6. Pin Configuration and Functions
  7. Specifications
    1. 7.1  Absolute Maximum Ratings
    2. 7.2  ESD Ratings
    3. 7.3  Recommended Operating Conditions
    4. 7.4  Thermal Information
    5. 7.5  Electrical Characteristics
    6. 7.6  Timing Requirements: CONVST Control
    7. 7.7  Timing Requirements: Data Read Operation
    8. 7.8  Timing Requirements: Parallel Data Read Operation, CS and RD Tied Together
    9. 7.9  Timing Requirements: Parallel Data Read Operation, CS and RD Separate
    10. 7.10 Timing Requirements: Serial Data Read Operation
    11. 7.11 Timing Requirements: Byte Mode Data Read Operation
    12. 7.12 Timing Requirements: Oversampling Mode
    13. 7.13 Timing Requirements: Exit Standby Mode
    14. 7.14 Timing Requirements: Exit Shutdown Mode
    15. 7.15 Switching Characteristics: CONVST Control
    16. 7.16 Switching Characteristics: Parallel Data Read Operation, CS and RD Tied Together
    17. 7.17 Switching Characteristics: Parallel Data Read Operation, CS and RD Separate
    18. 7.18 Switching Characteristics: Serial Data Read Operation
    19. 7.19 Switching Characteristics: Byte Mode Data Read Operation
    20. 7.20 Typical Characteristics
  8. Detailed Description
    1. 8.1 Overview
    2. 8.2 Functional Block Diagram
    3. 8.3 Feature Description
      1. 8.3.1 Analog Inputs
      2. 8.3.2 Analog Input Impedance
      3. 8.3.3 Input Clamp Protection Circuit
      4. 8.3.4 Programmable Gain Amplifier (PGA)
      5. 8.3.5 Third-Order, Low-Pass Filter (LPF)
      6. 8.3.6 ADC Driver
      7. 8.3.7 Digital Filter and Noise
      8. 8.3.8 Reference
        1. 8.3.8.1 Internal Reference
        2. 8.3.8.2 External Reference
        3. 8.3.8.3 Supplying One VREF to Multiple Devices
      9. 8.3.9 ADC Transfer Function
    4. 8.4 Device Functional Modes
      1. 8.4.1 Device Interface: Pin Description
        1. 8.4.1.1  REFSEL (Input)
        2. 8.4.1.2  RANGE (Input)
        3. 8.4.1.3  STBY (Input)
        4. 8.4.1.4  PAR/SER/BYTE SEL (Input)
        5. 8.4.1.5  CONVSTA, CONVSTB (Input)
        6. 8.4.1.6  RESET (Input)
        7. 8.4.1.7  RD/SCLK (Input)
        8. 8.4.1.8  CS (Input)
        9. 8.4.1.9  OS[2:0]
        10. 8.4.1.10 BUSY (Output)
        11. 8.4.1.11 FRSTDATA (Output)
        12. 8.4.1.12 DB15/BYTE SEL
        13. 8.4.1.13 DB14/HBEN
        14. 8.4.1.14 DB[13:9]
        15. 8.4.1.15 DB8/DOUTB
        16. 8.4.1.16 DB7/DOUTA
        17. 8.4.1.17 DB[6:0]
      2. 8.4.2 Device Modes of Operation
        1. 8.4.2.1 Power-Down Modes
          1. 8.4.2.1.1 Standby Mode
          2. 8.4.2.1.2 Shutdown Mode
        2. 8.4.2.2 Conversion Control
          1. 8.4.2.2.1 Simultaneous Sampling on All Input Channels
          2. 8.4.2.2.2 Simultaneous Sampling Two Sets of Input Channels
        3. 8.4.2.3 Data Read Operation
          1. 8.4.2.3.1 Parallel Data Read
          2. 8.4.2.3.2 Parallel Byte Data Read
          3. 8.4.2.3.3 Serial Data Read
          4. 8.4.2.3.4 Data Read During Conversion
        4. 8.4.2.4 Oversampling Mode of Operation
  9. Application and Implementation
    1. 9.1 Application Information
    2. 9.2 Typical Application
      1. 9.2.1 6-Channel, Data Acquisition System (DAQ) for Power Automation
        1. 9.2.1.1 Design Requirements
        2. 9.2.1.2 Detailed Design Procedure
        3. 9.2.1.3 Application Curve
  10. 10Power Supply Recommendations
  11. 11Layout
    1. 11.1 Layout Guidelines
    2. 11.2 Layout Example
  12. 12デバイスおよびドキュメントのサポート
    1. 12.1 ドキュメントのサポート
      1. 12.1.1 関連資料
    2. 12.2 ドキュメントの更新通知を受け取る方法
    3. 12.3 コミュニティ・リソース
    4. 12.4 商標
    5. 12.5 静電気放電に関する注意事項
    6. 12.6 Glossary
  13. 13メカニカル、パッケージ、および注文情報

パッケージ・オプション

メカニカル・データ(パッケージ|ピン)
サーマルパッド・メカニカル・データ
発注情報

Specifications

Absolute Maximum Ratings

at TA = 25°C (unless otherwise noted)(1)
MIN MAX UNIT
AVDD to AGND –0.3 7.0 V
DVDD to AGND –0.3 7.0 V
Analog input voltage to AGND(2) –15 15 V
Digital input to AGND –0.3 DVDD + 0.3 V
REFIN to AGND –0.3 AVDD + 0.3 V
Input current to any pin except supplies(2) –10 10 mA
Temperature Operating –40 125 °C
Junction, TJ 150
Storage, Tstg –65 150
Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings only, which do not imply functional operation of the device at these or any other conditions beyond those indicated under Recommended Operating Conditions. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.
Transient currents of up to 100 mA do not cause SCR latch-up.

ESD Ratings

VALUE UNIT
V(ESD) Electrostatic discharge Human-body model (HBM), per ANSI/ESDA/JEDEC JS-001(1) All pins except analog inputs ±2000 V
Analog input pins only ±7000
Charged-device model (CDM), per JEDEC specification JESD22-C101(2) All pins ±500
JEDEC document JEP155 states that 500-V HBM allows safe manufacturing with a standard ESD control process.
JEDEC document JEP157 states that 250-V CDM allows safe manufacturing with a standard ESD control process.

Recommended Operating Conditions

over operating free-air temperature range (unless otherwise noted)
MIN NOM MAX UNIT
AVDD Analog supply voltage 4.75 5 5.25 V
DVDD Digital supply voltage 2.3 3.3 AVDD V

Thermal Information

THERMAL METRIC(1) ADS8586S UNIT
PM (LQFP)
64 PINS
RθJA Junction-to-ambient thermal resistance 46.0 °C/W
RθJC(top) Junction-to-case (top) thermal resistance 7.8 °C/W
RθJB Junction-to-board thermal resistance 20.1 °C/W
ψJT Junction-to-top characterization parameter 0.3 °C/W
ψJB Junction-to-board characterization parameter 19.6 °C/W
RθJC(bot) Junction-to-case (bottom) thermal resistance N/A °C/W
For more information about traditional and new thermal metrics, see the Semiconductor and IC Package Thermal Metrics application report.

Electrical Characteristics

minimum and maximum specifications are at TA = –40°C to +125°C, AVDD = 4.75 V to 5.25 V; typical specifications are at TA = 25°C; AVDD = 5 V, DVDD = 3 V, VREF = 2.5 V (internal), and fSAMPLE = 250 kSPS (unless otherwise noted)
PARAMETER TEST CONDITIONS MIN TYP MAX UNIT TEST LEVEL(8)
ANALOG INPUTS
Full-scale input span(1)
(AIN_nP to AIN_nGND)
RANGE pin = 1 –10 10 V A
RANGE pin = 0 –5 5 A
AIN_nP Operating input range,
positive input
RANGE pin = 1 –10 10 V A
RANGE pin = 0 –5 5 A
AIN_nGND Operating input range,
negative input
All input ranges –0.3 0 0.3 V B
RIN Input impedance At TA = 25°C 0.85 1 1.15 B
Input impedance drift All input ranges –25 ±7 25 ppm/°C B
IIkg(in) Input leakage current With voltage at AIN_nP = VIN,
all input ranges
(VIN – 2) / RIN µA A
SYSTEM PERFORMANCE
Resolution 16 Bits A
NMC No missing codes 16 Bits A
DNL Differential nonlinearity All input ranges –0.5 ±0.35 0.5 LSB(2) A
INL Integral nonlinearity(4) All input ranges –1.5 ±0.45 1.5 LSB A
EG Gain error(9) All input ranges,
external reference
TA = –40°C to +85°C –64 ±4 64 LSB A
TA = –40°C to +125°C –64 ±4 96 A
All input ranges,
internal reference
±4 A
Gain error matching
(channel-to-channel)
Input range = ±10 V,
external and internal reference
10 60 LSB A
Input range = ±5 V,
external and internal reference
12 60 A
Gain error temperature drift All input ranges,
external reference
–14 ±6 14 ppm/°C B
All input ranges,
internal reference
±10 B
EO Offset error Input range = ±10 V –1.8 ±0.15 1.8 mV B
Input range = ±5 V –1.8 ±0.15 1.8 B
Offset error matching
(channel-to-channel)
All input ranges 0.3 2.4 mV B
Offset error temperature drift All input ranges –3 ±0.3 3 ppm/°C B
SAMPLING DYNAMICS
tACQ Acquisition time 1 µs A
fS Maximum throughput rate per channel without latency All six channels included 250 kSPS A
DYNAMIC CHARACTERISTICS
SNR Signal-to-noise ratio,
no oversampling
(VIN – 0.5 dBFS at 1 kHz)
Input range = ±10 V 91 92.7 dB A
Input range = ±5 V 90.4 92.2 A
SNROSR Signal-to-noise ratio,
oversampling = 16x
(VIN – 0.5 dBFS at 130 Hz)
Input range = ±10 V 95.5 96.4 dB A
Input range = ±5 V 94.4 95.5 A
THD Total harmonic distortion(3)
(VIN – 0.5 dBFS at 1 kHz)
All input ranges –114 –95 dB B
SINAD Signal-to-noise + distortion ratio,
no oversampling
(VIN – 0.5 dBFS at 1 kHz)
Input range = ±10 V 90.7 92.7 dB A
Input range = ±5 V 90.2 92.1 A
SINADOSR Signal-to-noise + distortion ratio,
oversampling = 16x
(VIN – 0.5 dBFS at 130 Hz)
Input range = ±10 V 95 96.4 dB A
Input range = ±5 V 94 95.4 A
SFDR Spurious-free dynamic range
(VIN – 0.5 dBFS at 1 kHz)
All input ranges –118 dB B
Crosstalk isolation(5) –95 dB A
BW(–3 dB) Small-signal bandwidth –3 dB At TA = 25°C,
input range = ±10 V
24 kHz B
At TA = 25°C,
input range = ±5 V
16 B
BW(–0.1 dB) –0.1 dB At TA = 25°C,
input range = ±10 V
14 kHz B
At TA = 25°C,
input range = ±5 V
9.5 B
tGROUP Group delay Input range = ±10 V 13 µs C
Input range = ±5 V 19 C
INTERNAL REFERENCE OUTPUT (REFSEL = 1)
VREF(6) Voltage on the REFIN/REFOUT pin
(configured as output)
At TA = 25°C 2.4975 2.5 2.5025 V A
Internal reference temperature drift 7.5 ppm/°C B
C(REFIN_ REFOUT) Decoupling capacitor on REFIN/REFOUT(7) 10 µF B
V(REFCAP) Reference voltage to the ADC
(on the REFCAPA, REFCAPB pin)
At TA = 25°C 3.996 4.0 4.004 V A
Reference buffer output impedance 0.5 1 Ω C
Reference buffer output temperature drift 5 ppm/°C B
C(REFCAP) Decoupling capacitor on REFCAPA, REFCAPB 10 µF B
Turn-on time C(REFCAP) = 10 µF,
C(REFIN_REFOUT) = 10 µF
25 ms B
EXTERNAL REFERENCE INPUT (REFSEL = 0)
VREFIO_EXT External reference voltage on REFIO
(configured as input)
2.475 2.5 2.525 V B
Reference input impedance 100 C
Reference input capacitance 10 pF C
POWER-SUPPLY REQUIREMENTS
AVDD Analog power-supply voltage Analog supply 4.75 5 5.25 V A
DVDD Digital power-supply voltage Digital supply range 2.3 3.3 AVDD V A
IAVDD_DYN Analog supply current
(operational)
For ADS8586S, AVDD = 5 V,
fS = 250 kSPS,
internal reference
14.6 19.8 mA A
For ADS8586S, AVDD = 5 V,
fS = 250 kSPS,
external reference
14.1 19.1 A
IAVDD_STC Analog supply current
(static)
For ADS8586S, AVDD = 5 V, internal reference,
device not converting
10.6 14.5 mA A
For ADS8586S, AVDD = 5 V, external reference,
device not converting
10.1 13.8 A
IAVDD_STDBY AVDD supply
STANDBY current
At AVDD = 5 V, device in STDBY mode,
internal reference
3.7 4.9 mA A
At AVDD = 5 V, device in STDBY mode,
external reference
3.2 4.2 A
IAVDD_PWR_ DN AVDD supply
power-down current
At AVDD = 5 V, device in PWR_DN, internal or
external reference,
TA = –40°C to +85°C
0.2 6 µA A
IDVDD_DYN Digital supply current For ADS8586S,
DVDD = 3.3 V,
fS = 250 kSPS
0.15 0.3 mA A
IDVDD_STDBY DVDD supply STANDBY current At AVDD = 5 V, device in STDBY mode 0.05 1.5 µA A
IDVDD_PWR-DN DVDD supply power-down current At AVDD = 5 V, device in PWR_DN mode 0.05 1.5 µA A
DIGITAL INPUTS (CMOS)
VIH Digital high input voltage logic level DVDD > 2.3 V 0.7 × DVDD DVDD + 0.3 V A
VIL Digital low input voltage logic level DVDD > 2.3 V –0.3 0.3 × DVDD V A
Input leakage current 100 nA A
Input pin capacitance 5 pF A
DIGITAL OUTPUTS (CMOS)
VOH Digital high output voltage logic level IO = 100-µA source 0.8 × DVDD DVDD V A
VOL Digital low output voltage logic level IO = 100-µA sink 0 0.2 × DVDD V A
Floating state leakage current Only for SDO 1 µA A
Internal pin capacitance 5 pF A
TEMPERATURE RANGE
TA Operating free-air temperature –40 125 °C A
Ideal input span, does not include gain or offset error.
LSB = least significant bit.
Calculated on the first nine harmonics of the input frequency.
This parameter is the endpoint INL, not best-fit INL.
Isolation crosstalk is measured by applying a full-scale sinusoidal signal up to 160 kHz to a channel, not selected in the multiplexing sequence, and measuring the effect on the output of any selected channel.
Does not include the variation in voltage resulting from solder shift effects.
Recommended to use an X7R-grade, 0603-size ceramic capacitor for optimum performance (see the Layout Guidelines section).
Test Levels: (A) Tested at final test. Overtemperature limits are set by characterization and simulation. (B) Limits set by characterization and simulation, across temperature range. (C) Typical value only for information, provided by design simulation.
Gain error is calculated after adjusting for offset error, which implies that positive full-scale error = negative full-scale error = gain error ÷ 2.

Timing Requirements: CONVST Control

minimum and maximum specifications are at TA = –40°C to +125°C, typical specifications are at TA = 25°C; AVDD = 5 V, 2.3 V ≤ DVDD ≤ 5.25 V, VREF = 2.5 V (internal), BUSY load = 20 pF, VIL and VIH at datasheet limits, and fSAMPLE = 250 kSPS (unless otherwise noted) (see Figure 1)
MIN NOM MAX UNIT
tACQ Acquisition time:
BUSY falling edge to rising edge of trailing CONVSTA or CONVSTB
1 µs
tPH_CN CONVSTA, CONVSTB pulse high time 25 ns
tPL_CN CONVSTA, CONVSTB pulse low time 25 ns
tSU_BSYCS Setup time: BUSY falling to CS falling 0 ns
tSU_RSTCN Setup time: RESET falling to first rising edge of CONVSTA or CONVSTB 25 ns
tPH_RST RESET pulse high time 50 ns
tD_CNAB Delay between rising edges of CONVSTA and CONVSTB 500 µs

Timing Requirements: Data Read Operation

minimum and maximum specifications are at TA = –40°C to +125°C, typical specifications are at TA = 25°C; AVDD = 5 V, 2.3 V ≤ DVDD ≤ 5.25 V, VREF = 2.5 V (internal), BUSY load = 20 pF, VIL and VIH at datasheet limits, and fSAMPLE = 250 kSPS (unless otherwise noted) (see Figure 2)
MIN NOM MAX UNIT
tDZ_CNCS Delay between CONVSTA, CONVSTB rising edge to CS falling edge, start of data read operation during conversion 10 ns
tDZ_CSBSY Delay between CS rising edge to BUSY falling edge, end of data read operation during conversion 40 ns
tSU_BSYCS Setup time: BUSY falling edge to CS falling edge, start of data read operation after conversion 0 ns
tD_CSCN Delay between CS rising edge to CONVSTA, CONVSTB rising edge, end of data read operation after conversion 10 ns

Timing Requirements: Parallel Data Read Operation, CS and RD Tied Together

minimum and maximum specifications are at TA = –40°C to +125°C, typical specifications are at TA = 25°C; AVDD = 5 V, 2.3 V ≤ DVDD ≤ 5.25 V, VREF = 2.5 V (internal), load on DB[15:0] and FRSTDATA = 20 pF, VIL and VIH at datasheet limits, and fSAMPLE = 250 kSPS (unless otherwise noted) (see Figure 3)
MIN NOM MAX UNIT
tPH_CS, tPH_RD CS and RD high time 15 ns
tPL_CS, tPL_RD CS and RD low time 15 ns
tHT_RDDB, tHT_CSDB Hold time: RD and CS rising edge to DB[15:0] invalid 2.5 ns

Timing Requirements: Parallel Data Read Operation, CS and RD Separate

minimum and maximum specifications are at TA = –40°C to +125°C, typical specifications are at TA = 25°C; AVDD = 5 V, 2.3 V ≤ DVDD ≤ 5.25 V, VREF = 2.5 V (internal), load on DB[15:0] and FRSTDATA = 20 pF, VIL and VIH at datasheet limits, and fSAMPLE = 250 kSPS (unless otherwise noted) (see Figure 4)
MIN NOM MAX UNIT
tSU_CSRD Setup time: CS falling edge to RD falling edge 0 ns
tHT_RDCS Hold time: RD rising edge to CS rising edge 0 ns
tPL_RD RD low time 15 ns
tPH_RD RD high time 15 ns
tHT_CSDB Hold time: CS rising edge to DB[15:0] becoming invalid 6 ns
tHT_RDDB Hold time: RD rising edge to DB[15:0] becoming invalid 2.5 ns

Timing Requirements: Serial Data Read Operation

minimum and maximum specifications are at TA = –40°C to +125°C, typical specifications are at TA = 25°C; AVDD = 5 V, 2.3 V ≤ DVDD ≤ 5.25 V, VREF = 2.5 V (internal), load on DOUTA, DOUTB, and FRSTDATA = 20 pF, VIL and VIH at datasheet limits, and fSAMPLE = 250 kSPS (unless otherwise noted) (see Figure 5)
MIN NOM MAX UNIT
tSCLK SCLK time period 50 ns
tPH_SCLK SCLK high time 0.45 0.55 tSCLK
tPL_SCLK SCLK low time 0.45 0.55 tSCLK
tHT_CKDO Hold time: SCLK rising edge to DOUTA, DOUTB invalid 7 ns
tSU_CSCK Setup time: CS falling to first SCLK edge 8 ns
tHT_CKCS Hold time: last SCLK active edge to CS high 10 ns

Timing Requirements: Byte Mode Data Read Operation

minimum and maximum specifications are at TA = –40°C to +125°C, typical specifications are at TA = 25°C; AVDD = 5 V, 2.3 V ≤ DVDD ≤ 5.25 V, VREF = 2.5 V (internal), load on DB[7:0] and FRSTDATA = 20 pF, VIL and VIH at datasheet limits, and fSAMPLE = 250 kSPS (unless otherwise noted) (see Figure 6)
MIN NOM MAX UNIT
tSU_CSRD Setup time: CS falling edge to RD falling edge 0 ns
tHT_RDCS Hold time: RD rising edge to CS rising edge 0 ns
tPL_RD RD low time 15 ns
tPH_RD RD high time 15 ns
tHT_CSDB Hold time: CS rising edge to DB[15:0] becoming invalid 6 ns
tHT_RDDB Hold time: RD rising edge to DB[15:0] becoming invalid 2.5 ns

Timing Requirements: Oversampling Mode

MIN NOM MAX UNIT
tHT_OS Hold time: BUSY falling to OSx 20 ns
tSU_OS Setup time: BUSY falling to OSx 20 ns

Timing Requirements: Exit Standby Mode

minimum and maximum specifications are at TA = –40°C to +125°C, typical specifications are at TA = 25°C, AVDD = 5 V, 2.3 V ≤ DVDD ≤ 5.25 V, VREF = 2.5 V (internal), VIL and VIH at datasheet limits, and fSAMPLE = 250 kSPS (unless otherwise noted) (see Figure 8)
MIN NOM MAX UNIT
tD_STBYCN Delay between STBY rising edge to CONVSTA or CONVSTB rising edge(1) 100 µs
First conversion data must be discarded or RESET must be issued if the maximum timing is exceeded.

Timing Requirements: Exit Shutdown Mode

minimum and maximum specifications are at TA = –40°C to +125°C, typical specifications are at TA = 25°C; AVDD = 5 V, 2.3 V ≤ DVDD ≤ 5.25 V, VREF = 2.5 V (internal), VIL and VIH at datasheet limits, and fSAMPLE = 250 kSPS (unless otherwise noted) (see Figure 9)
MIN NOM MAX UNIT
tD_SDRST Delay between STBY rising edge to RESET rising edge Internal reference mode 50 ms
External reference mode(1) 13
tPH_RST RESET high time 50 ns
tD_RSTCN Delay between RESET falling edge to CONVSTA or CONVSTB rising edge 25 µs
Excludes wake-up time for external reference device.

Switching Characteristics: CONVST Control

minimum and maximum specifications are at TA = –40°C to +125°C, typical specifications are at TA = 25°C; AVDD = 5 V, 2.3 V ≤ DVDD ≤ 5.25 V, VREF = 2.5 V (internal), BUSY load = 20 pF, VIL and VIH at datasheet limits, and fSAMPLE = 250 kSPS (unless otherwise noted) (see Figure 1)
PARAMETER TEST CONDITIONS MIN TYP MAX UNIT
tCYC ADC cycle time period No oversampling, parallel read, serial read with both DOUTA and DOUTB during conversion 4 µs
No oversampling, serial read after conversion with both DOUTA and DOUTB 5.6
No oversampling, serial read after conversion with only DOUTA or DOUTB 8
tCONV Conversion time: BUSY high time No oversampling 3 µs
Oversampling by 2 7
Oversampling by 4 15
Oversampling by 8 31
Oversampling by 16 63
Oversampling by 32 127
Oversampling by 64 255
tD_CNBSY Delay between trailing rising edges of CONVSTA or CONVSTB and BUSY rising 15 ns

Switching Characteristics: Parallel Data Read Operation, CS and RD Tied Together

minimum and maximum specifications are at TA = –40°C to +125°C, typical specifications are at TA = 25°C; AVDD = 5 V, 2.3 V ≤ DVDD ≤ 5.25 V, VREF = 2.5 V (internal), load on DB[15:0] and FRSTDATA = 20 pF, VIL and VIH at datasheet limits, and fSAMPLE = 250 kSPS (unless otherwise noted) (see Figure 3)
PARAMETER TEST CONDITIONS MIN TYP MAX UNIT
tD_CSDB Delay time: CS falling edge to DB[15:0] becoming valid
(out of tri-state)
12 ns
tD_RDDB Delay time: RD falling edge to new data on DB[15:0] 17 ns
tD_CSFD, tD_RDFD Delay time: CS and RD falling edge to FRSTDATA going high or low out of tri-state 10 ns
tDHZ_CSDB, tDHZ_RDDB Delay time: CS and RD rising edge to DB[15:0] tri-state 12 ns
tDHZ_CSFD, tDHZ_RDFD Delay time: CS and RD rising edge to FRSTDATA tri-state 10 ns

Switching Characteristics: Parallel Data Read Operation, CS and RD Separate

minimum and maximum specifications are at TA = –40°C to +125°C, typical specifications are at TA = 25°C; AVDD = 5 V, 2.3 V ≤ DVDD ≤ 5.25 V, VREF = 2.5 V (internal), load on DB[15:0] and FRSTDATA = 20 pF, VIL and VIH at datasheet limits, and fSAMPLE = 250 kSPS (unless otherwise noted) (see Figure 4)
PARAMETER TEST CONDITIONS MIN TYP MAX UNIT
tD_CSDB Delay time: CS falling edge to DB[15:0] becoming valid
(out of tri-state)
12 ns
tD_RDDB Delay time: RD falling edge to new data on DB[15:0] 17 ns
tDHZ_CSDB Delay time: CS rising edge to DB[15:0] becoming tri-state 12 ns
tD_CSFD Delay time: CS falling edge to FRSTDATA going low out of tri-state 15 ns
tDHZ_CSFD Delay time: CS rising edge to FRSTDATA going to tri-state 10 ns
tD_RDFD Delay time: RD falling edge to FRSTDATA going high or low 15 ns

Switching Characteristics: Serial Data Read Operation

minimum and maximum specifications are at TA = –40°C to +125°C, typical specifications are at TA = 25°C; AVDD = 5 V, 2.3 V ≤ DVDD ≤ 5.25 V, VREF = 2.5 V (internal), load on DOUTA, DOUTB, and FRSTDATA = 20 pF, VIL and VIH at datasheet limits, and fSAMPLE = 250 kSPS (unless otherwise noted) (see Figure 5)
PARAMETER TEST CONDITIONS MIN TYP MAX UNIT
tD_CSDO Delay time: CS falling edge to DOUTA, DOUTB enable
(out of tri-state)
12 ns
tD_CKDO Delay time: SCLK rising edge to valid data on DOUTA, DOUTB 15 ns
tDZ_CSDO Delay time: CS rising edge to DOUTA, DOUTB going to tri-state 12 ns
tD_CSFD Delay time: CS falling edge to FRSTDATA from tri-state to high or low 10 ns
tDZ_CKFD Delay time: 16th SCLK falling edge to FRSTDATA falling edge 15 ns
tDHZ_CSFD Delay time: CS rising edge to FRSTDATA going to tri-state 10 ns

Switching Characteristics: Byte Mode Data Read Operation

minimum and maximum specifications are at TA = –40°C to +125°C, typical specifications are at TA = 25°C; AVDD = 5 V, 2.3 V ≤ DVDD ≤ 5.25 V, VREF = 2.5 V (internal), load on DB[7:0] and FRSTDATA = 20 pF, VIL and VIH at datasheet limits, and fSAMPLE = 250 kSPS (unless otherwise noted) (see Figure 6)
PARAMETER TEST CONDITIONS MIN TYP MAX UNIT
tD_CSDB Delay time: CS falling edge to DB[7:0] becoming valid
(out of tri-state)
12 ns
tD_RDDB Delay time: RD falling edge to new data on DB[7:0] 17 ns
tDHZ_CSDB Delay time: CS rising edge to DB[7:0] becoming tri-state 12 ns
tD_CSFD Delay time: CS falling edge to FRSTDATA going low out of tri-state 10 ns
tD_RDFD Delay time: RD falling edge to FRSTDATA going low or high state 15 ns
tDHZ_CSFD Delay time: CS rising edge to FRSTDATA going to tri-state 10 ns
ADS8586S tim_conv_ctrl_sbas642.gif Figure 1. CONVST Control Timing Diagram
ADS8586S tim_data_read_sbas642.gif Figure 2. Data Read Operation Timing Diagram
ADS8586S tim_par_data_read_CSzRD_tied_BAS833.gif Figure 3. Parallel Data Read Operation, CS and RD Tied Together
ADS8586S tim_par_data_read_CSzRD_sep_BAS833.gif Figure 4. Parallel Data Read Operation, CS and RD Separate
ADS8586S tim_serial_data_read_sbas642.gif Figure 5. Serial Data Read Operation Timing Diagram
ADS8586S tim_byte_data_read_BAS833.gif Figure 6. Byte Mode Data Read Operation Timing Diagram
ADS8586S tim_osr_pin_sbas642.gif Figure 7. Oversampling Mode Timing Diagram
ADS8586S tim_exit_standby_sbas642.gif Figure 8. Exit Standby Mode Timing Diagram
ADS8586S tim_exit_shutdown_sbas642.gif Figure 9. Exit Shutdown Mode Timing Diagram

Typical Characteristics

at TA = 25°C, AVDD = 5 V, DVDD = 3 V, internal reference VREF = 2.5 V, and fS = 250 kSPS per channel (unless otherwise noted)
ADS8586S D002_SBAS642.gif
Figure 10. Analog Input Current vs Input Voltage Over Temperature (±10 V)
ADS8586S D004_SBAS642.gif
Figure 12. Input Impedance vs Temperature
ADS8586S D010_SBAS642.gif
Mean = –0.02, sigma = 0.54, number of hits = 4096, VIN = 0 V
Figure 14. DC Histogram of Codes (±5 V)
ADS8586S D012_SBAS642.gif
Figure 16. DNL vs Temperature
ADS8586S D014_SBAS642.gif
Figure 18. INL vs All Codes (±5 V)
ADS8586S D016_SBAS642.gif
Figure 20. INL vs Temperature (±5 V)
ADS8586S D018_SBAS642.gif
Figure 22. Offset Drift Histogram Distribution (±10 V)
ADS8586S D020_SBAS642.gif
Figure 24. Offset Drift Histogram Distribution (±5 V)
ADS8586S D022_SBAS642.gif
External reference
Figure 26. Gain Error vs Temperature
ADS8586S D024_SBAS642.gif
External reference
Figure 28. Gain Error Across Channels vs Temperature
(±10 V)
ADS8586S D026_SBAS642.gif
External reference
Figure 30. Gain Error Across Channels vs Temperature
(±5 V)
ADS8586S D028_SBAS833.gif
Number of points = 32k, SNR = 92.71 dB,
SINAD = 92.3 dB, THD = –111.72 dB, SFDR = 114.61 dB
Figure 32. Typical FFT Plot (±10 V)
ADS8586S D030_SBAS833.gif
Number of points = 32k, SNR = 96.45 dB,
SINAD = 95.83 dB, THD = –110.78 dB, SFDR = 114.1 dB
Figure 34. Typical FFT Plot for OSR 16x (±10 V)
ADS8586S D032_SBAS833.gif
OSR = 0
Figure 36. SNR vs Input Frequency for Different Input Ranges
ADS8586S D034_SBAS642.gif
Figure 38. SNR vs Input Frequency for Different OSR
(±10 V)
ADS8586S D036_SBAS642.gif
OSR = 0
Figure 40. SINAD vs Input Frequency for Different Input Ranges
ADS8586S D038_SBAS642.gif
Figure 42. THD vs Input Frequency for Different Input Ranges
ADS8586S D040_SBAS642.gif
Figure 44. THD vs Input Frequency for Different Source Impedances (±10 V)
ADS8586S D042_SBAS642.gif
Figure 46. Isolation Crosstalk vs Noise Frequency
(Inputs Within Range)
ADS8586S D053_SBAS833.gif
Figure 48. Analog Supply Current (Operational) vs Temperature
ADS8586S D056_SBAS642.gif
Figure 50. Analog Supply Current vs Temperature
(Standby)
ADS8586S D003_SBAS642.gif
Figure 11. Analog Input Current vs Input Voltage Over Temperature (±5 V)
ADS8586S D009_SBAS642.gif
Mean = –0.14, sigma = 0.51, number of hits = 4096, VIN = 0 V
Figure 13. DC Histogram of Codes (±10 V)
ADS8586S D011_SBAS642.gif
Figure 15. DNL for All Codes
ADS8586S D013_SBAS642.gif
Figure 17. INL vs All Codes (±10 V)
ADS8586S D015_SBAS642.gif
Figure 19. INL vs Temperature (±10 V)
ADS8586S D017_SBAS642.gif
Figure 21. Offset Error vs Temperature
ADS8586S D019_SBAS642.gif
Figure 23. Offset Error Across Channels vs Temperature
(±10 V)
ADS8586S D021_SBAS642.gif
Figure 25. Offset Error Across Channels vs Temperature
(±5 V)
ADS8586S D023_SBAS642.gif
External reference
Figure 27. Gain Error Drift Histogram Distribution (±10 V)
ADS8586S D025_SBAS642.gif
External reference
Figure 29. Gain Error Drift Histogram Distribution (±5 V)
ADS8586S D027_SBAS642.gif
Figure 31. Gain Error as a Function of External Source Resistance
ADS8586S D029_SBAS833.gif
Number of points = 32k, SNR = 92.21 dB,
SINAD = 92.13 dB, THD = –110.79 dB, SFDR = 113.95 dB
Figure 33. Typical FFT Plot (±5 V)
ADS8586S D031_SBAS833.gif
Number of points = 32k, SNR = 95.41 dB,
SINAD = 94.82 dB, THD = –109.95 dB, SFDR = 113.61 dB
Figure 35. Typical FFT Plot for OSR 16x (±5 V)
ADS8586S D033_SBAS642.gif
OSR = 0
Figure 37. SNR vs Temperature for Different Input Ranges
ADS8586S D035_SBAS642.gif
Figure 39. SNR vs Input Frequency for Different OSR
(±5 V)
ADS8586S D037_SBAS642.gif
OSR = 0
Figure 41. SINAD vs Temperature for Different Input Ranges
ADS8586S D039_SBAS642.gif
Figure 43. THD vs Temperature for Different Input Ranges
ADS8586S D041_SBAS642.gif
Figure 45. THD vs Input Frequency for Different Source Impedances (±5 V)
ADS8586S D043_SBAS642.gif
Figure 47. Isolation Crosstalk vs Noise Frequency (Saturated Inputs)
ADS8586S D055_SBAS833.gif
Figure 49. Analog Supply Current (Static) vs Temperature (Sampling)
ADS8586S D057_SBAS642.gif
Figure 51. Analog Supply Current vs Temperature (Shutdown)