NBSG86ABAEVB ON Semiconductor, NBSG86ABAEVB Datasheet
NBSG86ABAEVB
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NBSG86ABAEVBOS
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NBSG86ABAEVB Summary of contents
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... Output Skew Eye pattern generation Jitter V (Input High Common Mode Range) IHCMR NOTE: 1. Single- ended meas urements can only be made at is the 2.0 V and Figure 1. NBSG86A Evaluation Board 1 http://onsemi.com EVALUATION BOARD MANUAL / 3.3 V using this board setup. Publication Order Number: NBSG86ABAEVB/D ...
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... NBSG86A data sheet pg 2. Figure 2. NBSG86A Board Setup - Time Domain (AND/NAND Function) Connect Power Step 1: 1a. Connect the following supplies to the evaluation board via surface mount clips. NBSG86ABAEVB Setup for Time Domain Measurements Example Equipment (Note 1) HP6624A TDS8000 with 80E01 Sampling Head (Note 2) ...
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... W termination to ground. NOTE: Where a single output is being used, the unconnected output for the pair must be terminated to through resistor for best operation. Unused pairs may be left unconnected. Since standard 50 W SMA termination is recommended NBSG86ABAEVB . (GND) through resis ...
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... Signal Generator OUT Amplitude = 400 mV Offset = 660 mV OUT OUT1 OUT1 TRIGGER *See NBSG86A data sheet pg 2. Figure 3. NBSG86A Board Setup - Time Domain (OR/NOR Function) Connect Power Step 1: 1a: Connect the following supplies to the evaluation board via surface mount clips. NBSG86ABAEVB ...
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... W termination to ground. NOTE: Where a single output is being used, the unconnected output for the pair must be terminated to through resistor for best operation. Unused pairs may be left unconnected. Since standard 50 W SMA termination is recommended NBSG86ABAEVB . (GND) through resis ...
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... Signal Generator OUT Amplitude = 400 mV Offset = 660 mV OUT OUT1 OUT1 TRIGGER *See NBSG86A data sheet pg 2. Figure 4. NBSG86A Board Setup - Time Domain (XOR/XNOR Function) Connect Power Step 1: 1a: Connect the following supplies to the evaluation board via surface mount clips. NBSG86ABAEVB 2 GND SEL ...
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... Where a single output is being used, the unconnected output for the pair must be terminated to through resistor for best operation. Unused pairs may be left unconnected. Since standard 50 W SMA termination is recommended NBSG86ABAEVB (GND) through within the V range. Refer to the device data sheet for IH IHCMR http://onsemi ...
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... Signal Generator Amplitude = 400 mV Offset = 660 mV TRIGGER *See NBSG86A data sheet pg 2. Figure 5. NBSG86A Board Setup - Time Domain (2:1 MUX Function) Connect Power Step 1: 1a: Connect the following supplies to the evaluation board via surface mount clips. NBSG86ABAEVB 2 GND SEL SEL OLS ...
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... W termination to ground. Where a single output is being used, the unconnected output for the pair must be terminated to NOTE: through resistor for best operation. Unused pairs may be left unconnected. Since standard 50 W SMA termination is recommended NBSG86ABAEVB and the D0 input and the SEL input ...
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... For frequency domain measurements, 2.5 V power supply is not recommended because additional equipment (bias tee, etc.) is needed for proper operation. The input signal has to be properly offset to meet V range of the device IHCMR NBSG86ABAEVB Example Equipment (Note 4) HP 6624A R&S ZVK (10 MHz to 40 GHz) Krytar Model #4010180 ...
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... Output Setup 3a: Set display to measure S21 and record data. PORT 1 GND 50 W 1805 Hybrid Coupler *See NBSG86A data sheet pg 2. Figure 6. NBSG86A Board Setup - Frequency Domain (Differential 2:1 MUX Function - D1 Selected) NBSG86ABAEVB Rohde & Schwartz Vector Network Analyzer 2 GND V CC SEL ...
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... Set input levels to +2 dBm (500 mV) at the input of DUT. Step 3: Output Setup 3a: Set display to measure S21 and record data. PORT 2 *See NBSG86A data sheet pg 2. Figure 7. NBSG86A Board Setup - Frequency Domain (Differential 2:1 MUX Function - D1 Selected) NBSG86ABAEVB Rohde & Schwartz Vector Network Analyzer GND 2 ...
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... T1 1 Rosenberger SMA T1 1 Rosenberger SMA T1 NBSG86ABAEVB The following considerations played a key role to ensure this evaluation board achieves high-end microwave performance: Optimal SMA connector launch Minimal insertion loss and signal dispersion Accurate Transmission line matching (50 W) Distributed effects while bypassing and noise filtering ...
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... Dielectric (5.0 mil) Thick Copper Base Figure 9. Board Stack- dB/ START 1 GHz NOTE: The insertion loss curve can be used to calibrate out board loss if testing under small signal conditions. NBSG86ABAEVB Description ON Semiconductor Rosenberger Dielectric Laboratories 5.0 mil 32 mil PIN 1 Figure 10. Layout Mask for NBSG86A 1 GHz/ Figure 11 ...
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... NBSG86ABAEVB EXAMPLE TIME DOMAIN MEASUREMENT RESULTS 900 800 OLS = V CC 700 OLS = 600 OLS = FLOAT 500 *OLS = V EE 400 300 OLS = 200 100 RMS JITTER FREQUENCY (GHz) Figure 12. V /Jitter vs. Frequency (2:1 MUX Function) OUT ( 3 255C; Repetitive 1010 Input Data Pattern) ...
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... START 1 GHz 1 GHz/ Figure 15. NBSG86A: Small Signal Gain (S21) D0/D0 - Q0/ -50 dB START 1 GHz 1 GHz/ Figure 17. NBSG86A: Large Signal Gain (S21) D0/D0 - Q0/Q0 NBSG86ABAEVB -50 dB STOP 12 GHz START 1 GHz Figure 16. NBSG86A: Small Signal Gain (S21) D1/D1 - Q0/ -50 dB STOP 12 GHz START 10 MHz Figure 18 ...
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... Orderable Part No NBSG86ABA SiGe Differential Smart Gate with Output Level Select NBSG86ABAR2 SiGe Differential Smart Gate with Output Level Select NBSG86ABAEVB NBSG86A Evaluation Board NBSG86ABAEVB ADDITIONAL INFORMATION AND8075/D, Application Considerations for the FCBGA Packages BRD8017/D, Brochure, Clock and Data Management Solutions NBSG86A/D, Data Sheet, 2 ...
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... Notes NBSG86ABAEVB http://onsemi.com 18 ...
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... Notes NBSG86ABAEVB http://onsemi.com 19 ...
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... Fax: 303-675-2176 or 800-344-3867 Toll Free USA/Canada Email: ONlit@hibbertco.com N. American Technical Support: 800-282-9855 Toll Free USA/Canada NBSG86ABAEVB JAPAN: ON Semiconductor, Japan Customer Focus Center 2-9-1 Kamimeguro, Meguro-ku, Tokyo, Japan 153-0051 Phone: 81-3-5773-3850 ON Semiconductor Website: http://onsemi.com For additional information, please contact your local Sales Representative. http://onsemi.com 20 NBSG86ABAEVB/D ...