LTC6400-26 Linear Technology, LTC6400-26 Datasheet

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... ADCs with low noise and low distortion, but can also be used as a general-purpose broadband gain block. The LTC6400-26 is easy to use, with minimal support circuitry required. The output common mode voltage is set using an external pin, independent of the inputs, which eliminates the need of transformers or AC-coupling ca- pacitors in many applications. The gain is internally fi ...

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... For more information on tape and reel specifi cations, go to: LTC6400 AND LTC6401 SELECTOR GUIDE PART NUMBER LTC6400-20 LTC6400-26 LTC6401-8 LTC6401-20 LTC6401-26 In addition to the LTC6400 family of amplifi ers, a lower power LTC6401 family is available. The LTC6401 is pin compatible to the LTC6400, and has the same low noise performance ...

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... Differential, Includes Parasitics Differential Differential Differential, Includes Parasitics Input Common Mode Voltage 1. 1.6V OCM V = 1.1V to 1.5V OCM ENABLE = 0.8V ENABLE = 2.4V ENABLE = 0.8V ENABLE = 2.4V Both Inputs and Outputs Floating 2.85V to 3.5V LTC6400-26 = 1.25V, ENABLE= 0V unless OCM L MIN TYP MAX UNITS ● ● 0.0038 dB/°C ● 90 ...

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... LTC6400-26 www.DataSheet4U.com AC ELECTRICAL CHARACTERISTICS ENABLE = 0V unless otherwise noted. L SYMBOL PARAMETER –3dBBW –3dB Bandwidth 0.5dBBW Bandwidth for 0.5dB Flatness 0.1dBBW Bandwidth for 0.1dB Flatness 1/f 1/f Noise Corner SR Slew Rate t 1% Settling Time S1% t Overdrive Recovery Time OVDR t Turn-On Time ON t Turn-Off Time OFF – ...

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... Note 5: Input and output baluns used. See Test Circuit A. Note 6: Measured using Test Circuit B. R Note 7: Since the LTC6400- feedback amplifi er with low output impedance, a resistive load is not required when driving an AD converter. Therefore, typical output power is very small. In order to compare the LTC6400-26 with amplifi ...

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... LTC6400-26 www.DataSheet4U.com TYPICAL PERFORMANCE CHARACTERISTICS Frequency Response TEST CIRCUIT 100 FREQUENCY (MHz) S21 Phase and Group Delay vs Frequency 0 –50 –100 –150 –200 0 200 400 FREQUENCY (MHz) Input and Output Impedance vs Frequency 100 Z MAG IN Z MAG 90 OUT Z PHASE ...

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... TIME (ns) 2.5 2.0 EN 1.5 1.0 0.5 0 1000 640026 G07 640026 G09 = 87.5Ω PER OUTPUT 640026 G11 LTC6400-26 Small Signal Transient Response 1. 87.5W PER OUTPUT L TEST CIRCUIT B –OUT 1.30 1.25 +OUT 1.20 1. TIME (ns) 640026 G08 Overdriven Transient Response 2 87.5Ω PER OUTPUT ...

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... LTC6400-26 www.DataSheet4U.com TYPICAL PERFORMANCE CHARACTERISTICS Third Order Intermodulation Distortion vs Frequency –40 DIFFERENTIAL INPUT COMPOSITE OUT P-P –50 –60 –70 –80 –90 –100 200Ω L –110 0 50 100 150 200 250 FREQUENCY (MHz) Output 1dB Compression Point vs Frequency 20 DIFFERENTIAL INPUT R = 375 ...

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... IN– OUT –IN 500Ω 25Ω 12.5Ω MODE CONTROL 5.3pF OCM LTC6400-26 – . The Exposed Pad must be V – 9 OUT +OUT 8 FILT +OUTF 7 C FILT FILT 2.7pF –OUTF 6 OUT –OUT 5 COMMON 4 640026 BD V – 640026fa ...

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... Moreover, they offer single-ended 50Ω matching in wideband applications and no external resistor is needed. The LTC6400-26 is very fl exible in terms of I/O coupling. It can be AC- or DC-coupled at the inputs, the outputs or both. Due to the internal connection between input and output, users are advised to keep input common mode voltage between 1V and 1 ...

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... Output Impedance Match and Filter The LTC6400-26 can drive an ADC directly without external output impedance matching. Alternatively, the differential output impedance of 25Ω can be made larger, e.g. 50Ω, by series resistors or LC network. ...

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... Figure 6. LTC6400-26 with 165MHz Output Bandpass Filter converted to a differential signal via a balun and fed to the input of the LTC6400-26. Figure 8 summarizes the IMD3 performance of the whole system in Figure 7. Test Circuits Due to the fully-differential design of the LTC6400 and its usefulness in applications with differing characteristic specifi ...

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... R19 1.5k R20 C7 1k 0.1μF C23 C5 C19 0.1μF 0.1μF R21 (1) C24 C6 0.1μF 0.1μF VERSION (2) -D LTC6400CUD-26 OPEN OPEN MACOM MABA-007159-000000 SL = SIGNAL LEVEL LTC6400-26 C18 0.1μF 9 R10 R14 86.6Ω ( TCM 4:19 3 (1) 0.1μF 7 1:4 2 SL2 R7 (2) ( 0.1μF 86.6Ω ...

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... OCM 1000pF 0.1μ OCM 0.1μF Optical Photodiode Receiver 3V 3V 249Ω 100pF 0.1μF 0.1μF LTC6400-26 249Ω 640026 TA04 PD:JDSU ETX 100RFC2 –3dB BW: 1.1GHz RISE TIME: 200ps V – 9 OUT +OUT 37.4Ω PORT 3 8 (50Ω) FILT 0.1μF +OUTF 7 1/2 C FILT ...

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... Plastic QFN (3mm × 3mm) (Reference LTC DWG # 05-08-1691) 0.70 0.05 PACKAGE OUTLINE 0.25 0.05 0.50 BSC 0.75 0.05 3.00 0.10 (4 SIDES) PIN 1 TOP MARK (NOTE 6) 1.45 0.10 (4-SIDES) 0.200 REF 0.00 – 0.05 LTC6400-26 BOTTOM VIEW—EXPOSED PAD PIN 1 NOTCH R = 0.20 TYP R = 0.115 OR 0.25 45 CHAMFER TYP 15 16 0.40 0. (UD16) QFN 0904 0.25 0.05 0.50 BSC 640026fa 15 ...

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... LTC6400-26 www.DataSheet4U.com RELATED PARTS PART NUMBER DESCRIPTION High-Speed Differential Amplifi ers/Differential Op Amps LT ® 1993-2 800MHz Differential Amplifi er/ADC Driver LT1993-4 900MHz Differential Amplifi er/ADC Driver LT1993-10 700MHz Differential Amplifi er/ADC Driver LT1994 Low Noise, Low Distortion Differential Op Amp LT5514 Ultralow Distortion IF Amplifi ...