AD607 查看數據表(PDF) - Analog Devices
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AD607 Datasheet PDF : 24 Pages
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AD607
40.2127ms
40.2377ms
40.2627ms
TIMEBASE = 500s/DIV
DELAY = 40.2377ms
MEMORY 1 = 100.0mV/DIV OFFSET = 154.0mV
TIMEBASE = 5.00s/DIV
DELAY = 40.2377ms
MEMORY 2 = 60.00mV/DIV OFFSET = 209.0mV
TIMEBASE = 5.00s/DIV
DELAY = 40.2377ms
DELTA T = 15.7990s
START
= 40.2327ms
STOP = 40.2485ms
TRIGGER ON EXTERNAL AT POS. EDGE AT 40.0mV
TPC 18. Power-Up Response Time to PLL Stable
15
10
5
0
0.5
1
1.5
2
2.5
GAIN VOLTAGE – V
TPC 19. Power Supply Current vs. Gain Control Voltage,
GREF = 1.5 V
LOIP
PRODUCT OVERVIEW
The AD607 provides most of the active circuitry required to
realize a complete low power, single-conversion superhetero-
dyne receiver, or most of a double-conversion receiver, at input
frequencies up to 500 MHz, and an IF from 400 kHz to 12 MHz.
The internal I/Q demodulators and their associated phase-
locked loop, which can provide carrier recovery from the IF,
support a wide variety of modulation modes, including
n-PSK, n-QAM, and AM. A single positive supply voltage of 3 V
is required (2.92 V minimum, 5.5 V maximum) at a typical
supply current of 8.5 mA at midgain. In the following discus-
sion, VP will be used to denote the power supply voltage, which
will be assumed to be 3 V.
Figure 13 shows the main sections of the AD607. It consists of a
variable gain UHF mixer and linear four-stage IF strip, which
together provide a voltage controlled gain range of more than
90 dB; dual demodulators, each comprising a multiplier fol-
lowed by a two-pole, 2 MHz low-pass filter; and a phase-locked
loop providing the inphase and quadrature clocks. A biasing
system with CMOS compatible power-down completes the
AD607.
Mixer
The UHF mixer is an improved Gilbert cell design, and can
operate from low frequencies (it is internally dc-coupled) up to
an RF input of 500 MHz. The dynamic range at the input of the
mixer is determined at the upper end by the maximum input
signal level of ± 56 mV between RFHI and RFLO up to which the
mixer remains linear, and at the lower end by the noise level. It is
customary to define the linearity of a mixer in terms of the 1 dB
gain-compression point and third order intercept, which for the
AD607 are –15 dBm and –8 dBm, respectively, in a 50 Ω system.
RFHI
RFLO
VPS1
VPS2
PRUP
MXOP
IFHI
BPF
MIDPOINT
BIAS
GENERATOR
VMID
IFLO
VMID
IFOP
BPF OR
LPF
DMIP
VQFO
BIAS
GENERATOR
PTAT
VOLTAGE
COM1 COM2
Figure 13. Functional Block Diagram
AD607
IOUT
FDIN
FLTR
QOUT
GAIN
GREF
–14–
REV. C
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