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参数资料
型号: XE8805AMI028LF
厂商: Semtech
文件页数: 30/156页
文件大小: 0K
描述: IC DAS 16BIT FLASH 8K MTP 64LQFP
标准包装: 160
系列: XE880x
应用: 感测机
核心处理器: Coolrisc816?
程序存储器类型: 闪存(22 kB)
控制器系列: XE8000
RAM 容量: 512 x 8
接口: UART,USRT
输入/输出数: 24
电源电压: 2.4 V ~ 5.5 V
工作温度: -40°C ~ 85°C
安装类型: 表面贴装
封装/外壳: 64-LQFP
包装: 托盘
供应商设备封装: 64-LQFP(10x10)
产品目录页面: 585 (CN2011-ZH PDF)
配用: XE8000MP-ND - PROG BOARD AND PROSTART2 CARD
Semtech 2006
www.semtech.com
18-4
XE8805/05A
18.4
The D/A description
The D/A converter consists of 2 parts: a classic PWM modulator which is preceded by a noise shaper (Figure
18-1). The PWM signal has then to be low pass filtered using the amplifier and external components to obtain the
analog signal.
18.4.1
What is a noise shaper?
The major disadvantage of using a PWM modulator to generate a high resolution analog signal is that it requires a
high ratio between the PWM switching frequency and the useful bandwidth of the output analog signal after low
pass filtering.
Example: assuming the switching frequency of the PWM modulator is 1MHz and one wants to resolve 16 bit, i.e.
2
16=65536 steps. In this case, the PWM has to code each step in increments of 1s=1/1MHz and needs therefore
65536s per pulse. This means that the PWM pulse repetition rate is 1/65536s=15.25Hz. So, even with a higher
order low pass filter, more than 1 frequency decade will be required to filter the PWM signal down to a 16 bit
accurate analog signal. This leaves a useful bandwidth below 1Hz.
The goal of the noise shaper is to reduce the ratio between the PWM switching frequency and the useful
bandwidth. The noise shaper will not reduce the “truncation noise” and “PWM modulation noise” but move it to
higher frequencies. It “shapes” the frequency spectrum (“noise”) of the generated PWM signal, hence its name. In
practice, the noise shaper allows the generation of a signal with a given resolution using a PWM modulator that
has a lower resolution. The noise shaper then generates a series of different subsequent low resolution codes for
the PWM so that the average value corresponds to the high resolution code.
The first order noise shaper interpolates between two adjacent PWM codes to obtain a higher resolution. The
second order noise shaper can use non-adjacent PWM codes.
Example for first order noise shaper: assuming again the resolution of 16 bits using a 1MHz PWM switching
frequency using the noise shaper with order 1. If a PWM modulator with 4 bits, i.e. 16 steps is used, the PWM
repetition frequency becomes then 1MHz/16=62.5kHz. The PWM modulator can convert only the 4 MSB’s of the
16 bit input such as h0000, h1000 until hF000. In order to convert the code h5800, which is between h5000 and
h6000? In this case, the first order noise shaper will interpolate by presenting alternatively the code h5 and h6 to
the PWM so that after filtering a signal is obtained halfway between the normal PWM steps. To convert the code
h5400, it will present h5 3 times and h6 once to the PWM and so on. It is clear from this that the PWM repetition
frequency is much higher than for the simple PWM and can be filtered out more easily. The quantization noise
frequency will depend on the code to be converted: for this example for instance we need two PWM pulses to
implement the code h5800, but we need four to implement h5400 etc.
Example for second order noise shaper: if we use the same conditions as for the example above, we will obtain the
same PWM repetition frequency. However, to implement the code h5400, the noise shaper now can present the
following sequence to the PWM modulator: h6, h5, h6, h4. This increases the frequency components at the PWM
pulse repetition frequency and of the PWM pulse repetition frequency but at the same time reduces energy at
of the PWM pulse repetition frequency with respect to the first order noise shaper. The low pass cut-off frequency
can therefore be higher than for a first order noise shaper.
A disadvantage of the second order noise shaper is however that the resolution will drop when the code is very
close to h0000 or hFFFF.
Example: if we assume the same conditions as above, but we want to convert the code h0400. It is now impossible
to use a similar sequence as above (which would be h1, h0, h1, h(-1) ) due to saturation of the code. There is no
choice left but the sequence h1 h0 h0 h0 which is the same sequence as in the first order noise shaper.
18.4.2
Advantages/disadvantages
Advantages:
Using a high order noise shaper together with a PWM modulator with low resolution reduces the ratio between the
low pass cut off frequency and the PWM switching frequency for the same total resolution. This can be used to
Not
Recommended
for
New
Designs
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XE8805AMI028TLF 制造商:Semtech Corporation 功能描述:
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