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| 型号: | MAX11060GUU+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 26/35页 |
| 文件大小: | 0K |
| 描述: | IC ADC 16BIT DELTA SIGMA 38TSSOP |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 位数: | 16 |
| 采样率(每秒): | 3.07M |
| 数据接口: | DSP,MICROWIRE?,QSPI?,串行,SPI? |
| 转换器数目: | 4 |
| 功率耗散(最大): | 1.1W |
| 电压电源: | 模拟和数字 |
| 工作温度: | -40°C ~ 106°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 38-TFSOP(0.173",4.40mm 宽) |
| 供应商设备封装: | 38-TSSOP |
| 包装: | 带卷 (TR) |
| 输入数目和类型: | 8 个单端,双极;4 个差分,双极 |
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MAX11040K/MAX11060
24-/16-Bit, 4-Channel, Simultaneous-Sampling,
Cascadable, Sigma-Delta ADCs
32
Maxim Integrated
Source Impedance and
Input Sampling Network
The source impedance that drives the analog inputs
affects the sampling period.
Low-Impedance Sources
Minimize the source impedance to ensure the input
capacitor fully charges during the sampling phase.
The required source resistance is defined by the
equation below:
where K = 1.5 and RINT = 2600
Ω.
For example, the required source resistance to achieve
0.1% accuracy is:
High-Impedance Sources
If
the
source
impedance
is
greater
than
RSOURCE_MAX, as defined in the Low-Impedance
Sources section, place a 0.1μF bypass capacitor
between AIN_+ and AIN_- to provide transient charge.
The average switched-capacitor load with a proper
bypass capacitor and XIN clock frequency =
24.576MHz is equivalent to a 130k
Ω resistor connect-
ed between AIN_+ and AIN_-. This resistance is inde-
pendent of the value of the 0.1μF bypass capacitor. If
another XIN clock frequency is chosen, this resistance
is directly proportional to the XIN clock period.
Although the addition of a bypass capacitor helps charge
the devices’ 0 input capacitor, some gain error due to
resistive drop across the source resistance still remains.
Calculate this gain error using the following equation:
Analog Filtering
The analog filtering requirements in front of the devices
are considerably reduced compared to a conventional
converter with no on-chip filtering. The internal digital
filter has significant rejection of signals higher than the
Nyquist frequency of the output data rate that would
alias back into the sampled signal.
The internal digital filter does not provide rejection
close to the harmonics of the 3.072MHz modulator fre-
quency. For example, assuming an output data rate of
16ksps if the XIN clock is set to 24.576MHz, then the
band between 3.0686MHz and 3.0750MHz is not
explicitly filtered. Since this unfiltered band is very
small compared to its actual frequency, very little
broadband noise enters through this mechanism. If
focused narrowband noise in this band is present, a
simple analog filter can create significant attenuation at
this frequency because the ratio of passband-to-stop-
band frequency is large.
In addition, because the device’s common-mode rejec-
tion extends out to several 100kHz, the common-mode
noise susceptibility in this frequency range is substan-
tially reduced.
Providing additional filtering in some applications
ensures that differential noise signals outside the fre-
quency band of interest do not saturate the analog
modulator.
The modulator saturates if the input voltage exceeds its
full scale (±2.2V). The digital filter does not prevent a
large signal in the filter stopband from saturating the
modulator. If signals outside the band of interest cause
violation of this full scale while accurate conversion of
passband signals is desired, then additional analog fil-
tering is required to prevent saturation.
Compensating for the Rolloff of
the Digital Filter in Typical FFT Analysis
To calculate FIR_GAIN(fAIN_):
1) Decide the number of evenly spaced frequencies
between DC and the Nyquist frequency of the output
data rate at which correction factors are desired,
which is usually the same as the FFT result.
2) Create an array with a length that is 2x the number of
the desired frequencies. (Again, the result is likely to
correlate with the time domain array that is loaded
into an FFT algorithm.)
3) Fill this array with the filter coefficients provided in
the
Digital Filter section. Fill the rest of the array with
zeros.
4) Take an FFT of this array. The result represents the
response of the devices’ built-in FIR filter.
Δ
Ω
Gain
R
RR
R
Rk
SOURCE
LOAD
SOURCE
=
+
=
+ 130
R
ns
xpF x
ns
xpF x
ns
xpF x
SOURCE MAX
_
.
ln
.%
.
ln
.
<
=
()
==
120
15
4
1
01
2600
120
1 5
4
1000
2600
120
15
4
691
2600
294
Ω
ΩΩ
R
t
Kx C
x In
Error
R
ns
xpF x In
Error
SOURCE MAX
SAMP
INT
_
.
<
=
1
120
15
4
1
2600
Ω
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相关代理商/技术参数 |
参数描述 |
|---|---|
| MAX11068EVKIT | 功能描述:电源管理IC开发工具 Programmers, Development Systems Eval and Demo Boards and Kits - KIT SMART BATT MEASUREMENT 12CH RoHS:否 制造商:Maxim Integrated 产品:Evaluation Kits 类型:Battery Management 工具用于评估:MAX17710GB 输入电压: 输出电压:1.8 V |
| MAX11068EVKIT+ | 功能描述:电源管理IC开发工具 Programmers, Development Systems Eval and Demo Boards and Kits - KIT SMART BATT MEASUREMENT 12CH RoHS:否 制造商:Maxim Integrated 产品:Evaluation Kits 类型:Battery Management 工具用于评估:MAX17710GB 输入电压: 输出电压:1.8 V |
| MAX11068EVMINIQU+ | 功能描述:电池管理 Automotive Battery Sensor RoHS:否 制造商:Texas Instruments 电池类型:Li-Ion 输出电压:5 V 输出电流:4.5 A 工作电源电压:3.9 V to 17 V 最大工作温度:+ 85 C 最小工作温度:- 40 C 封装 / 箱体:VQFN-24 封装:Reel |
| MAX11068GUU/V+ | 功能描述:电池管理 12Ch High-V Smart Bat Msr System RoHS:否 制造商:Texas Instruments 电池类型:Li-Ion 输出电压:5 V 输出电流:4.5 A 工作电源电压:3.9 V to 17 V 最大工作温度:+ 85 C 最小工作温度:- 40 C 封装 / 箱体:VQFN-24 封装:Reel |
| MAX11068GUU/V+T | 功能描述:电池管理 12Ch High-V Smart Bat Msr System RoHS:否 制造商:Texas Instruments 电池类型:Li-Ion 输出电压:5 V 输出电流:4.5 A 工作电源电压:3.9 V to 17 V 最大工作温度:+ 85 C 最小工作温度:- 40 C 封装 / 箱体:VQFN-24 封装:Reel |
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