Datasheet LT5524 (Analog Devices) - 4

制造商Analog Devices
描述Low Distortion IF Amplifier/ADC Driver with Digitally Controlled Gain
页数 / 页16 / 4 — AC ELECTRICAL CHARACTERISTICS VCC = 5V, VCCO = 5V, EN = 3V, TA = 25. C, …
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AC ELECTRICAL CHARACTERISTICS VCC = 5V, VCCO = 5V, EN = 3V, TA = 25. C, ROUT = 200. . Maximum gain

AC ELECTRICAL CHARACTERISTICS VCC = 5V, VCCO = 5V, EN = 3V, TA = 25 C, ROUT = 200  Maximum gain

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LT5524
AC ELECTRICAL CHARACTERISTICS VCC = 5V, VCCO = 5V, EN = 3V, TA = 25
°
C, ROUT = 200

. Maximum gain specifications are with respect to differential inputs and differential outputs, unless otherwise noted. (Note 7) (Test circuits shown in Figures 9 and 10) SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS Dynamic Performance
BW Large-Signal –3dB Bandwidth All Gain Settings (Note 8), ROUT = 100Ω LF to 540 MHz VOUT(CLIP) Output Voltage Clipping Levels Each OUT+, OUT– with Respect to Ground 2 8 V (Note 11) POUT(MAX) Clipping Limited Maximum Sinusoidal All Gain Settings, Single Tone, 16 dBm Output Power fIN = 100MHz (Note 10) gm Amplifier Transconductance Max Gain, fIN = 100MHz 0.15 S S12 Reverse Isolation fIN = 100MHz (Note 9) –92 dB
Distortion and Noise
OIP3 Output Third Order Intercept Point for POUT = 4dBm (Each Tone), 200kHz Tone Spacing, PGA0 = High (PGA1, PGA2, PGA3 Any State) fIN = 100MHz +40 dBm Output Third Order Intercept Point for POUT = 4dBm (Each Tone), 200kHz Tone Spacing, PGA0 = Low (PGA1, PGA2, PGA3 Any State) fIN = 100MHz +36 dBm HD2 Second Harmonic Distortion POUT = 5dBm (Single Tone), fIN = 50MHz –76 dBc HD3 Third Harmonic Distortion POUT = 5dBm (Single Tone), fIN = 50MHz –72 dBc NFLOOR Output Noise Floor PGA1 = High, fIN = 100MHz –138 dBm/Hz (PGAO, PGA2, PGA3 Any State) PGA1 = Low, fIN = 100MHz –140 dBm/Hz NF Noise Figure Max Gain Setting, fIN = 100MHz 8.6 dB PGA Settling Time Output Settles within 10% of Final Value 500 ns Enable/Disable Time Output Settles within 10% of Final Value 600 ns
Amplifier Power Gain and Gain Step
GMAX Maximum Gain fIN = 20MHz and 200MHz 27 dB GMIN Minimum Gain fIN = 20MHz and 200MHz 4.5 dB GSTEP Gain Step Size fIN = 20MHz and 200MHz 0.8 1.5 2.2 dB Gain Step Accuracy fIN = 20MHz and 200MHz ±0.2 dB
Amplifier I/O Impedance (Parallel Values, Specified Differentially)
RIN Input Resistance fIN = 100MHz 122 Ω CIN Input Capacitance fIN = 100MHz 2 pF RO Output Resistance fIN = 100MHz 5 kΩ CO Output Capacitance fIN = 100MHz 1.7 pF
Note 1:
Absolute Maximum Ratings are those values beyond which the life matching is assumed. PIN is the available input power. POUT is the power of the device may be impaired. into the external load, ROUT, as seen by the LT5524 differential outputs. All
Note 2:
All voltage values are with respect to ground. dBm figures are with respect to 50Ω.
Note 3:
Default state for open PGA inputs.
Note 8:
High frequency operation is limited by the RC time constants at
Note 4:
V the input and output ports. The low frequency (LF) roll-off is set by I/O CC1 and VCC2 (Pins 2 and 19) are internally connected. interface choice.
Note 5:
External VOSUP is adjusted such that VCCO output pin common mode voltage is as specified when resistors are used. For choke inductors
Note 9:
Limited by package and board isolation. or transformer, V
Note 10:
See “Clipping Free Operation” in the Applications Information OSUP = VCCO = 5V typ.
Note 6:
Internally generated common mode input bias voltage requires section. Refer to Figure 7. capacitive or transformer coupling to the signal source.
Note 11:
Although the instantaneous AC voltage on the OUT+ or OUT– pins
Note 7:
Specifications over the –40 may in some situations safely exceed 8V (with respect to ground), in no °C to 85°C operating temperature range are assured by design, characterization and correlation with case should the DC voltage on these pins be allowed to exceed the statistical process controls. Gain always refers to power gain. Input ABSMAX tested limit of 7V. 5524f 4