F capacitor connected from the VREFOUT
參數(shù)資料
型號: HI5767/4CA
廠商: Intersil
文件頁數(shù): 4/15頁
文件大?。?/td> 0K
描述: IC ADC 10-BIT 40MSPS 28-SSOP
標(biāo)準(zhǔn)包裝: 48
位數(shù): 10
采樣率(每秒): 40M
數(shù)據(jù)接口: 并聯(lián)
轉(zhuǎn)換器數(shù)目: 8
功率耗散(最大): 310mW
電壓電源: 模擬和數(shù)字
工作溫度: 0°C ~ 70°C
安裝類型: 表面貼裝
封裝/外殼: 28-SSOP(0.154",3.90mm 寬)
供應(yīng)商設(shè)備封裝: 28-SSOP/QSOP
包裝: 管件
輸入數(shù)目和類型: 2 個單端,單極;1 個差分,雙極
12
in a gain-of-two configuration. An external, user-supplied,
0.1
F capacitor connected from the VREFOUT output pin to
analog ground is used to set the dominant pole and to
maintain the stability of the operational amplifier.
Reference Voltage Input, VREFIN
The HI5767 is designed to accept a +2.5V reference voltage
source at the VREFIN input pin. Typical operation of the
converter requires VREFIN to be set at +2.5V. The HI5767 is
tested with VREFIN connected to VREFOUT yielding a fully
differential analog input voltage range of
±0.5V.
The user does have the option of supplying an external
+2.5V reference voltage. As a result of the high input
impedance presented at the VREFIN input pin, 2.5k
typically, the external reference voltage being used is only
required to source 1mA of reference input current. In the
situation where an external reference voltage will be used
an external 0.1
F capacitor must be connected from the
VREFOUT output pin to analog ground in order to maintain
the stability of the internal operational amplifier.
In order to minimize overall converter noise it is
recommended that adequate high frequency decoupling be
provided at the reference voltage input pin, VREFIN.
Analog Input, Differential Connection
The analog input to the HI5767 is a differential input that can
be configured in various ways depending on the signal
source and the required level of performance. A fully
differential connection (Figure 17 and Figure 18) will deliver
the best performance from the converter.
Since the HI5767 is powered by a single +5V analog supply,
the analog input is limited to be between ground and +5V.
For the differential input connection this implies the analog
input common mode voltage can range from 0.25V to 4.75V.
The performance of the ADC does not change significantly
with the value of the analog input common mode voltage.
A DC voltage source, VDC, equal to 3.2V (typical), is made
available to the user to help simplify circuit design when using
an AC coupled differential input. This low output impedance
voltage source is not designed to be a reference but makes
an excellent DC bias source and stays well within the analog
input common mode voltage range over temperature.
For the AC coupled differential input (Figure 17) and with
VREFIN connected to VREFOUT, full scale is achieved when
the VIN and -VIN input signals are 0.5VP-P , with -VIN being
180 degrees out of phase with VIN. The converter will be at
positive full scale when the VIN+ input is at VDC + 0.25V and
the VIN- input is at VDC - 0.25V (VIN+ - VIN- = +0.5V).
Conversely, the converter will be at negative full scale when
the VIN+ input is equal to VDC - 0.25V and VIN- is at
VDC + 0.25V (VIN+ - VIN- = -0.5V).
The analog input can be DC coupled (Figure 18) as long as
the inputs are within the analog input common mode voltage
range (0.25V
≤ VDC ≤ 4.75V).
The resistors, R, in Figure 18 are not absolutely necessary
but may be used as load setting resistors. A capacitor, C,
connected from VIN+ to VIN- will help filter any high
frequency noise on the inputs, also improving performance.
Values around 20pF are sufficient and can be used on AC
coupled inputs as well. Note, however, that the value of
capacitor C chosen must take into account the highest
frequency component of the analog input signal.
Analog Input, Single-Ended Connection
The configuration shown in Figure 19 may be used with a
single ended AC coupled input.
Again, with VREFIN connected to VREFOUT, if VIN is a 1VP-P
sinewave, then VIN+ is a 1.0VP-P sinewave riding on a positive
voltage equal to VDC. The converter will be at positive full scale
when VIN+ is at VDC + 0.5V (VIN+ - VIN- = +0.5V) and will be at
negative full scale when VIN+ is equal to VDC - 0.5V (VIN+ - VIN-
= -0.5V). Sufficient headroom must be provided such that the
input voltage never goes above +5V or below AGND. In this
case, VDC could range between 0.5V and 4.5V without a
significant change in ADC performance. The simplest way to
produce VDC is to use the DC bias source, VDC, output of the
HI5767.
VIN+
VDC
VIN-
HI5767
VIN
-VIN
R
FIGURE 16. AC COUPLED DIFFERENTIAL INPUT
VIN+
VDC
VIN-
HI5767
VIN
-VIN
R
C
VDC
FIGURE 17. DC COUPLED DIFFERENTIAL INPUT
VIN+
VIN-
HI5767
VIN
VDC
R
FIGURE 18. AC COUPLED SINGLE ENDED INPUT
HI5767
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