Datasheet LT6604-10 (Analog Devices) - 3
| Fabricante | Analog Devices |
| Descripción | Dual Very Low Noise, Differential Amplifier and 10MHz Lowpass Filter |
| Páginas / Página | 16 / 3 — ELECTRICAL CHARACTERISTICS. The. denotes specifi cations that apply over … |
| Formato / tamaño de archivo | PDF / 208 Kb |
| Idioma del documento | Inglés |
ELECTRICAL CHARACTERISTICS. The. denotes specifi cations that apply over the full operating temperature
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LT6604-10
ELECTRICAL CHARACTERISTICS The
l
denotes specifi cations that apply over the full operating temperature range, otherwise specifi cations are at TA = 25°C. Unless otherwise specifi ed VS = 5V (V+ = 5V, V– = 0V), RIN = 402Ω, and RLOAD = 1k. PARAMETER CONDITIONS MIN TYP MAX UNITS
Filter Gain Either Channel, VS = 3V VIN = 2VP-P, fIN = DC to 260kHz –0.4 0 0.5 dB VIN = 2VP-P, fIN =1MHz (Gain Relative to 260kHz) l –0.1 0 0.1 dB VIN = 2VP-P, fIN = 5MHz (Gain Relative to 260kHz) l –0.4 –0.1 0.3 dB VIN = 2VP-P, fIN = 8MHz (Gain Relative to 260kHz) l –0.3 0.1 1 dB VIN = 2VP-P, fIN = 10MHz (Gain Relative to 260kHz) l –0.2 0.3 1.7 dB VIN = 2VP-P, fIN = 30MHz (Gain Relative to 260kHz) l –28 –25 dB VIN = 2VP-P, fIN = 50MHz (Gain Relative to 260kHz) l –44 dB Matching of Filter Gain, VS = 3V VIN = 2VP-P, fIN = DC to 260kHz 0.1 0.6 dB VIN = 2VP-P, fIN =1MHz (Gain Relative to 260kHz) l 0.01 0.1 dB VIN = 2VP-P, fIN = 5MHz (Gain Relative to 260kHz) l 0.03 0.3 dB VIN = 2VP-P, fIN = 8MHz (Gain Relative to 260kHz) l 0.08 0.4 dB VIN = 2VP-P, fIN = 10MHz (Gain Relative to 260kHz) l 0.15 0.7 dB VIN = 2VP-P, fIN = 30MHz (Gain Relative to 260kHz) l 0.3 1.8 dB VIN = 2VP-P, fIN = 50MHz (Gain Relative to 260kHz) l 0.4 2.8 dB Matching of Filter Phase, VS = 3V VIN = 2VP-P, fIN =1MHz l 0.2 1 deg VIN = 2VP-P, fIN = 5MHz l 0.5 3 deg VIN = 2VP-P, fIN = 8MHz l 1 4 deg Filter Gain Either Channel, VS = 5V VIN = 2VP-P, fIN = DC to 260kHz –0.5 0 0.5 dB VIN = 2VP-P, fIN =1MHz (Gain Relative to 260kHz) l –0.1 0 0.1 dB VIN = 2VP-P, fIN = 5MHz (Gain Relative to 260kHz) l –0.4 –0.1 0.3 dB VIN = 2VP-P, fIN = 8MHz (Gain Relative to 260kHz) l –0.4 0.1 0.9 dB VIN = 2VP-P, fIN = 10MHz (Gain Relative to 260kHz) l –0.3 0.2 1.4 dB VIN = 2VP-P, fIN = 30MHz (Gain Relative to 260kHz) l –28 –25 dB VIN = 2VP-P, fIN = 50MHz (Gain Relative to 260kHz) l –44 dB Matching of Filter Gain, VS = 5V VIN = 2VP-P, fIN = DC to 260kHz 0.1 0.6 dB VIN = 2VP-P, fIN =1MHz (Gain Relative to 260kHz) l 0.01 0.1 dB VIN = 2VP-P, fIN = 5MHz (Gain Relative to 260kHz) l 0.03 0.3 dB VIN = 2VP-P, fIN = 8MHz (Gain Relative to 260kHz) l 0.08 0.4 dB VIN = 2VP-P, fIN = 10MHz (Gain Relative to 260kHz) l 0.15 0.7 dB VIN = 2VP-P, fIN = 30MHz (Gain Relative to 260kHz) l 0.3 1.8 dB VIN = 2VP-P, fIN = 50MHz (Gain Relative to 260kHz) l 0.4 2.8 dB Matching of Filter Phase, VS = 5V VIN = 2VP-P, fIN =1MHz l 0.2 1 deg VIN = 2VP-P, fIN = 5MHz l 0.5 3 deg VIN = 2VP-P, fIN = 8MHz l 1 4 deg Filter Gain Either Channel, VS = ±5V VIN = 2VP-P, fIN = DC to 260kHz –0.6 –0.1 0.4 dB Filter Gain, RIN = 100Ω VIN = 0.5VP-P, fIN = DC to 260kHz VS = 3V 11.4 12 12.6 dB VS = 5V 11.4 12 12.6 dB VS = ±5V 11.4 12 12.6 dB Filter Gain Temperature Coeffi cient (Note 2) fIN = 260kHz, VIN = 2VP-P 780 ppm/°C Noise Noise BW = 10kHz to 10MHz, RIN = 402Ω 56 μVRMS Distortion (Note 4) 1MHz, 2VP-P, RL = 800Ω 2nd Harmonic 88 dBc 3rd Harmonic 97 dBc 5MHz, 2VP-P, RL = 800Ω 2nd Harmonic 74 dBc 3rd Harmonic 77 dBc Channel Separation (Note 9) 1MHz, 2VP-P, RL = 800Ω –119 dB 5MHz, 2VP-P, RL = 800Ω –111 dB Differential Output Swing Measured Between +OUT and –OUT, VOCM Shorted to VMID VS = 5V l 3.85 5.0 VP-P_DIFF VS = 3V l 3.85 4.9 VP-P_DIFF 660410fb 3
ELECTRICAL CHARACTERISTICS The
l
denotes specifi cations that apply over the full operating temperature range, otherwise specifi cations are at TA = 25°C. Unless otherwise specifi ed VS = 5V (V+ = 5V, V– = 0V), RIN = 402Ω, and RLOAD = 1k. PARAMETER CONDITIONS MIN TYP MAX UNITS
Filter Gain Either Channel, VS = 3V VIN = 2VP-P, fIN = DC to 260kHz –0.4 0 0.5 dB VIN = 2VP-P, fIN =1MHz (Gain Relative to 260kHz) l –0.1 0 0.1 dB VIN = 2VP-P, fIN = 5MHz (Gain Relative to 260kHz) l –0.4 –0.1 0.3 dB VIN = 2VP-P, fIN = 8MHz (Gain Relative to 260kHz) l –0.3 0.1 1 dB VIN = 2VP-P, fIN = 10MHz (Gain Relative to 260kHz) l –0.2 0.3 1.7 dB VIN = 2VP-P, fIN = 30MHz (Gain Relative to 260kHz) l –28 –25 dB VIN = 2VP-P, fIN = 50MHz (Gain Relative to 260kHz) l –44 dB Matching of Filter Gain, VS = 3V VIN = 2VP-P, fIN = DC to 260kHz 0.1 0.6 dB VIN = 2VP-P, fIN =1MHz (Gain Relative to 260kHz) l 0.01 0.1 dB VIN = 2VP-P, fIN = 5MHz (Gain Relative to 260kHz) l 0.03 0.3 dB VIN = 2VP-P, fIN = 8MHz (Gain Relative to 260kHz) l 0.08 0.4 dB VIN = 2VP-P, fIN = 10MHz (Gain Relative to 260kHz) l 0.15 0.7 dB VIN = 2VP-P, fIN = 30MHz (Gain Relative to 260kHz) l 0.3 1.8 dB VIN = 2VP-P, fIN = 50MHz (Gain Relative to 260kHz) l 0.4 2.8 dB Matching of Filter Phase, VS = 3V VIN = 2VP-P, fIN =1MHz l 0.2 1 deg VIN = 2VP-P, fIN = 5MHz l 0.5 3 deg VIN = 2VP-P, fIN = 8MHz l 1 4 deg Filter Gain Either Channel, VS = 5V VIN = 2VP-P, fIN = DC to 260kHz –0.5 0 0.5 dB VIN = 2VP-P, fIN =1MHz (Gain Relative to 260kHz) l –0.1 0 0.1 dB VIN = 2VP-P, fIN = 5MHz (Gain Relative to 260kHz) l –0.4 –0.1 0.3 dB VIN = 2VP-P, fIN = 8MHz (Gain Relative to 260kHz) l –0.4 0.1 0.9 dB VIN = 2VP-P, fIN = 10MHz (Gain Relative to 260kHz) l –0.3 0.2 1.4 dB VIN = 2VP-P, fIN = 30MHz (Gain Relative to 260kHz) l –28 –25 dB VIN = 2VP-P, fIN = 50MHz (Gain Relative to 260kHz) l –44 dB Matching of Filter Gain, VS = 5V VIN = 2VP-P, fIN = DC to 260kHz 0.1 0.6 dB VIN = 2VP-P, fIN =1MHz (Gain Relative to 260kHz) l 0.01 0.1 dB VIN = 2VP-P, fIN = 5MHz (Gain Relative to 260kHz) l 0.03 0.3 dB VIN = 2VP-P, fIN = 8MHz (Gain Relative to 260kHz) l 0.08 0.4 dB VIN = 2VP-P, fIN = 10MHz (Gain Relative to 260kHz) l 0.15 0.7 dB VIN = 2VP-P, fIN = 30MHz (Gain Relative to 260kHz) l 0.3 1.8 dB VIN = 2VP-P, fIN = 50MHz (Gain Relative to 260kHz) l 0.4 2.8 dB Matching of Filter Phase, VS = 5V VIN = 2VP-P, fIN =1MHz l 0.2 1 deg VIN = 2VP-P, fIN = 5MHz l 0.5 3 deg VIN = 2VP-P, fIN = 8MHz l 1 4 deg Filter Gain Either Channel, VS = ±5V VIN = 2VP-P, fIN = DC to 260kHz –0.6 –0.1 0.4 dB Filter Gain, RIN = 100Ω VIN = 0.5VP-P, fIN = DC to 260kHz VS = 3V 11.4 12 12.6 dB VS = 5V 11.4 12 12.6 dB VS = ±5V 11.4 12 12.6 dB Filter Gain Temperature Coeffi cient (Note 2) fIN = 260kHz, VIN = 2VP-P 780 ppm/°C Noise Noise BW = 10kHz to 10MHz, RIN = 402Ω 56 μVRMS Distortion (Note 4) 1MHz, 2VP-P, RL = 800Ω 2nd Harmonic 88 dBc 3rd Harmonic 97 dBc 5MHz, 2VP-P, RL = 800Ω 2nd Harmonic 74 dBc 3rd Harmonic 77 dBc Channel Separation (Note 9) 1MHz, 2VP-P, RL = 800Ω –119 dB 5MHz, 2VP-P, RL = 800Ω –111 dB Differential Output Swing Measured Between +OUT and –OUT, VOCM Shorted to VMID VS = 5V l 3.85 5.0 VP-P_DIFF VS = 3V l 3.85 4.9 VP-P_DIFF 660410fb 3