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参数资料
| 型号: | AD6624AS |
| 厂商: | ANALOG DEVICES INC |
| 元件分类: | 通信及网络 |
| 英文描述: | Four-Channel, 80 MSPS Digital Receive Signal Processor (RSP) |
| 中文描述: | SPECIALTY TELECOM CIRCUIT, PQFP128 |
| 封装: | PLASTIC, MQFP-128 |
| 文件页数: | 16/40页 |
| 文件大小: | 506K |
| 代理商: | AD6624AS |
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REV. B
AD6624
–16–
The RSSI output of the AD6600 numerically grows with
increasing signal strength of the analog input (RSSI = 5 for a
large signal, RSSI = 0 for a small signal). When the Exponent
Invert Bit (ExpInv) is set to zero, the AD6624 will consider the
smallest signal at the IN[13:0] to be the largest and as the EXP
word increases, it shifts the data down internally (EXP = 5
will shift a 14-bit word right by five internal bits before passing
the data to the rCIC2). In this example, where ExpInv = 0, the
AD6624 regards the largest signal possible on the AD6600 as
the smallest signal. Thus, the Exponent Invert Bit can be used
to make the AD6624 exponent agree with the AD6600 RSSI.
By setting ExpInv = 1, it forces the AD6624 to shift the data
up (left) for growing EXP instead of down. The exponent invert
bit should always be set high for use with the AD6600.
The Exponent Offset is used to shift the data right. For example,
Table I shows that with no rCIC2 scaling, 12 dB of range is lost
when the ADC input is at the largest level. This is undesirable
because it lowers the Dynamic Range and SNR of the system by
reducing the signal of interest relative to the quantization noise floor.
Table I. AD6600 Transfer Function with AD6624 ExpInv = 1,
and No ExpOff
ADC Input
Level
AD6600
RSSI[2:0]
AD6624
Data
Signal
Reduction
Largest
101 (5)
100 (4)
011 (3)
010 (2)
001 (1)
000 (0)
4 (>> 2)
8 (>> 3)
16 (>> 4)
32 (>> 5)
64 (>> 6)
128 (>> 7)
–12 dB
–18 dB
–24 dB
–30 dB
–36 dB
–42 dB
Smallest
(ExpInv = 1, ExpOff = 0)
To avoid this automatic attenuation of the full-scale ADC
signal, the ExpOff is used to move the largest signal (RSSI = 5)
up to the point where there is no downshift. In other words,
once the Exponent Invert bit has been set, the Exponent Offset
should be adjusted so that mod(7–5 + ExpOff,8) = 0. This is
the case when Exponent Offset is set to 6 since mod(8,8) = 0.
Table II illustrates the use of ExpInv and ExpOff when used
with the AD6600 ADC.
Table II. AD6600 Transfer Function with AD6624 ExpInv = 1,
and ExpOff = 6
ADC Input
Level
AD6600
RSSI[2:0]
AD6624
Data
Signal
Reduction
Largest
101 (5)
100 (4)
011 (3)
010 (2)
001 (1)
000 (0)
1 (>> 0)
2 (>> 1)
4 (>> 2)
8 (>> 3)
16 (>> 4)
32 (>> 5)
–0 dB
–6 dB
–12 dB
–18 dB
–24 dB
–30 dB
Smallest
(ExpInv = 1, ExpOff = 6)
This flexibility in handling the exponent allows the AD6624
to interface with gain-ranging ADCs other than the AD6600.
The Exponent Offset can be adjusted to allow up to seven
RSSI(EXP) ranges to be used as opposed to the AD6600’s five.
Input Data Scaling
The AD6624 has two data input ports: an A Input Port and a
B Input Port. Each accepts 14-bit mantissa (
twos complement
integer
) IN[13:0], a 3-bit exponent (
unsigned integer
) EXP[2:0]
and the Input Enable (IEN). Both inputs are clocked by CLK.
These pins allow direct interfacing to both standard fixed-point
ADCs such as the AD9225 and AD6640, as well as to gain-
ranging ADCs such as the AD6600. For normal operation with
ADCs having fewer than 14 bits, the active bits should be MSB-
justified and the unused LSBs should be tied low.
The 3-bit exponent, EXP[2:0], is interpreted as an unsigned
integer. The exponent will subsequently be modified by either of
the 5-bit scale values stored in register 0x92, Bits 4–0 or Bits 9–5.
These 5-bit registers contain the sum of the rCIC2 scale value plus
the external attenuator scale settings and the Exponent Offset
(ExpOff). If no external attenuator is used, these values can only
be set to the value of the rCIC2 scale. If an external attenuator is
used, Bit Position 4–0 (Register 0x92 rCIC2_LOUD[4:0]) con-
tains the scale value for the largest input range. Bit Positions
9–5 (Register 0x92 rCIC2_QUIET[4:0]) are used for the nonat-
tenuated input signal range.
Scaling with Fixed-Point ADCs
For fixed-point ADCs, the AD6624 exponent inputs EXP[2:0]
are typically not used and should be tied low. The ADC outputs
are tied directly to the AD6624 Inputs, MSB-justified. The
ExpOff bits in 0x92 should be programmed to 0. Likewise, the
Exponent Invert bit should be 0.
Thus for fixed-point ADCs, the exponents are typically static
and no input scaling is used in the AD6624.
D11 (MSB)
AD6640
D0 (LSB)
AD6624
IN13
IN2
IN1
IN0
IEN
EXP2
EXP1
EXP0
VDD
EXPOFF = 0, EXPINV = 0
Figure 24. Typical Interconnection of the AD6640 Fixed
Point ADC and the AD6624
Scaling with Floating-Point or Gain-Ranging ADCs
An example of the exponent control feature combines the AD6600
and the AD6624. The AD6600 is an 11-bit ADC with three bits
of gain ranging. In effect, the 11-bit ADC provides the mantissa,
and the three bits of relative signal strength indicator (RSSI) for
the exponent. Only five of the eight available steps are used by
the AD6600. See the AD6600 data sheet for additional details.
For gain-ranging ADCs such as the AD6600,
scaled input
where:
IN
is the value of IN[13:0],
Exp
is the value of EXP[2:0],
and
rCIC2
is the rCIC scale register value (0x92 Bits 9–5 and 4–0).
IN
ExpInv
ExpWeight
Exp rCIC
_
,
,
– mod( –
, )
2 8
=
×
=
=
2
1
0
7
(1)
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| AD6624A | Four-Channel, 100 MSPS Digital Receive Signal Processor (RSP) |
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相关代理商/技术参数 |
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|---|---|
| AD6624AS/PCB | 制造商:AD 制造商全称:Analog Devices 功能描述:Four-Channel, 100 MSPS Digital Receive Signal Processor (RSP) |
| AD6624S/PCB | 制造商:AD 制造商全称:Analog Devices 功能描述:Four-Channel, 80 MSPS Digital Receive Signal Processor (RSP) |
| AD662AQ | 制造商:未知厂家 制造商全称:未知厂家 功能描述:12-Bit Digital-to-Analog Converter |
| AD662BQ | 制造商:未知厂家 制造商全称:未知厂家 功能描述:12-Bit Digital-to-Analog Converter |
| AD662JN | 制造商:未知厂家 制造商全称:未知厂家 功能描述:12-Bit Digital-to-Analog Converter |
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