The Datasheet Archive

Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
DIVIDE-E3-UT Lattice Semiconductor Corporation IP CORE DIVIDER ECP3
DIVIDE-PM-UT Lattice Semiconductor Corporation IP CORE DIVIDER ECP2M
DIVIDE-X2-U Lattice Semiconductor Corporation IP MODULE DIVIDER
DIVIDE-PM-U Lattice Semiconductor Corporation IP CORE DIVIDER ECP2M
DIVIDE-P2-UT Lattice Semiconductor Corporation IP CORE DIVIDER ECP2
DIVIDE-P2-U Lattice Semiconductor Corporation IP CORE DIVIDER ECP2

DIVIDE-BY-16 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2006 - T 514

Abstract: HMC533LP4 HMC533LP4E
Text: HMC533LP4 / 533LP4E v00.0405 MMIC VCO w/ DIVIDE-BY-16 , 23.8 - 24.8 GHz Typical Applications Features Low noise MMIC VCO w/ Divide-by-16 for: Pout: +12 dBm · VSAT Radio Phase Noise: -95 dBc , integrate resonators, negative resistance devices, varactor diodes and feature a divide-by-16 output. The , www.hittite.com HMC533LP4 / 533LP4E v00.0405 MMIC VCO w/ DIVIDE-BY-16 , 23.8 - 24.8 GHz Frequency vs , .0405 MMIC VCO w/ DIVIDE-BY-16 , 23.8 - 24.8 GHz SSB Phase Noise vs. Tuning Voltage SSB Phase Noise @


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PDF HMC533LP4 533LP4E DIVIDE-BY-16, w/Divide-by-16 HMC533LP4 HMC533LP4E divide-by-16 perfo50-3343 T 514
2005 - Not Available

Abstract: No abstract text available
Text: HMC533LP4 / 533LP4E v00.0405 MMIC VCO w/ DIVIDE-BY-16 , 23.8 - 24.8 GHz Typical Applications Features Low noise MMIC VCO w/ Divide-by-16 for: Pout: +12 dBm • VSAT Radio Phase Noise: -95 , HMC533LP4E integrate resonators, negative resistance devices, varactor diodes and feature a divide-by-16 , www.hittite.com HMC533LP4 / 533LP4E v00.0405 MMIC VCO w/ DIVIDE-BY-16 , 23.8 - 24.8 GHz Frequency vs , v00.0405 MMIC VCO w/ DIVIDE-BY-16 , 23.8 - 24.8 GHz SSB Phase Noise vs. Tuning Voltage SSB


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PDF HMC533LP4 533LP4E DIVIDE-BY-16, w/Divide-by-16 HMC533LP4 HMC533LP4E divide-by-16
2008 - HMC533LP4

Abstract: HMC533LP4E
Text: HMC533LP4 / 533LP4E v00.0405 MMIC VCO w/ DIVIDE-BY-16 , 23.8 - 24.8 GHz Typical Applications Features Low noise MMIC VCO w/ Divide-by-16 for: Pout: +12 dBm · VSAT Radio Phase Noise: -95 dBc , feature a divide-by-16 output. T he VCO's phase noise performance is excellent over temperature, shock , www.hittite.com HMC533LP4 / 533LP4E v00.0405 MMIC VCO w/ DIVIDE-BY-16 , 23.8 - 24.8 GHz Frequency vs , ) 26 11 - 203 HMC533LP4 / 533LP4E v00.0405 MMIC VCO w/ DIVIDE-BY-16 , 23.8 - 24.8 GHz SSB


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PDF HMC533LP4 533LP4E DIVIDE-BY-16, w/Divide-by-16 HMC533LP4 HMC533LP4E divide-by-16
2008 - Not Available

Abstract: No abstract text available
Text: HMC739LP4 / 739LP4E v01.1008 MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 23.8 - 26.8 GHz , resonator, negative resistance device, varactor diode and divide-by-16 prescaler. The VCO's phase noise , OUTPUT & DIVIDE-BY-16 , 23.8 - 26.8 GHz Frequency vs. Tuning Voltage, T= 25°C 29 28 FREQUENCY (GHz , www.hittite.com v01.1008 HMC739LP4 / 739LP4E MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 23.8 - 26.8 , TUNING VOLTAGE (VOLTS) OUTPUT POWER (dBm) TUNING VOLTAGE (VOLTS) Divide-by-16 Frequency vs


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PDF HMC739LP4 739LP4E DIVIDE-BY-16, 16mm2 divide-by-16
Not Available

Abstract: No abstract text available
Text: HMC533LP4 / 533LP4E v00.0405 MMIC VCO w/ DIVIDE-BY-16 , 23.8 - 24.8 GHz Typical Applications Features Low noise MMIC VCO w/ Divide-by-16 for: Pout: +12 dBm • VSAT Radio Phase Noise: -95 , HMC533LP4E integrate resonators, negative resistance devices, varactor diodes and feature a divide-by-16 , On-line at www.hittite.com HMC533LP4 / 533LP4E v00.0405 MMIC VCO w/ DIVIDE-BY-16 , 23.8 - 24.8 GHz , Order On-line at www.hittite.com 12 - 151 HMC533LP4 / 533LP4E v00.0405 MMIC VCO w/ DIVIDE-BY-16


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PDF HMC533LP4 533LP4E DIVIDE-BY-16, w/Divide-by-16 HMC533LP4 HMC533LP4E divide-by-16
2008 - SMA pcb mount Connector

Abstract: HMC739LP4
Text: HMC739LP4 / 739LP4E v00.0808 MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 23.8 - 26.8 GHz , resonator, negative resistance device, varactor diode and divide-by-16 prescaler. The VCO's phase noise , OUTPUT & DIVIDE-BY-16 , 23.8 - 26.8 GHz Frequency vs. Tuning Voltage, T= 25°C 29 28 FREQUENCY (GHz , www.hittite.com HMC739LP4 / 739LP4E v00.0808 MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 23.8 - 26.8 , ) +25 C +85 C -40 C 11 VCOS & PLOs - SMT 1.8 1.7 FREQUENCY (GHz) Divide-by-16 Frequency vs


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PDF HMC739LP4 739LP4E DIVIDE-BY-16, 16mm2 divide-by-16 SMA pcb mount Connector
2008 - ALL half 1008

Abstract: H738 SMA pcb mount Connector 25C2625
Text: HMC738LP4 / 738LP4E v01.1008 MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 20.9 - 23.9 GHz , resonator, negative resistance device, varactor diode and divide-by-16 prescaler. The VCO's phase noise , OUTPUT & DIVIDE-BY-16 , 20.9 - 23.9 GHz Frequency vs. Tuning Voltage, T= 25°C 26 25 FREQUENCY (GHz , www.hittite.com v01.1008 HMC738LP4 / 738LP4E MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 20.9 - 23.9 , 13 TUNING VOLTAGE (VOLTS) TUNING VOLTAGE (VOLTS) Divide-by-16 Frequency vs. Tuning Voltage


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PDF HMC738LP4 738LP4E DIVIDE-BY-16, 16mm2 divide-by-16 ALL half 1008 H738 SMA pcb mount Connector 25C2625
2005 - Not Available

Abstract: No abstract text available
Text: HMC533LP4 v00.0405 MMIC VCO w/ DIVIDE-BY-16 , 23.8 - 24.8 GHz Typical Applications Features Low noise MMIC VCO w/ Divide-by-16 for: Pout: +12 dBm • VSAT Radio Phase Noise: -95 , resonator, negative resistance device, varactor diode and features a divide-by-16 output. The VCO’s , HMC533LP4 v00.0405 MMIC VCO w/ DIVIDE-BY-16 , 23.8 - 24.8 GHz Frequency vs. Tuning Voltage, T= 25 , / DIVIDE-BY-16 , 23.8 - 24.8 GHz SSB Phase Noise vs. Tuning Voltage SSB Phase Noise @ Vtune= +5V -20


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PDF HMC533LP4 DIVIDE-BY-16, w/Divide-by-16 HMC533LP4 divide-by-16
2009 - HMC739LP4

Abstract: diode marking c2 sma
Text: HMC739LP4 / 739LP4E v03.0309 MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 23.8 - 26.8 GHz , ) integrates a resonator, negative resistance device, varactor diode and divide-by-16 prescaler. The VCO , www.hittite.com HMC739LP4 / 739LP4E v03.0309 MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 23.8 - , 12 - 239 HMC739LP4 / 739LP4E v03.0309 MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 23.8 , 4 5 6 7 8 9 10 11 12 13 TUNING VOLTAGE (VOLTS) Divide-by-16 Frequency


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PDF HMC739LP4 739LP4E DIVIDE-BY-16, 16mm2 divide-by-16 diode marking c2 sma
Not Available

Abstract: No abstract text available
Text: HMC738LP4 / 738LP4E v02.0309 MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 20.9 - 23.9 GHz , HMC738LP4(E) integrates a resonator, negative resistance device, varactor diode and divide-by-16 prescaler , FREQUENCY OUTPUT & DIVIDE-BY-16 , 20.9 - 23.9 GHz Frequency vs. Tuning Voltage, T= 25°C Frequency vs , & DIVIDE-BY-16 , 20.9 - 23.9 GHz RFOUT/2 Frequency vs. Tuning Voltage, Vcc= +5V RFOUT/2 Output , VOLTAGE (VOLTS) Divide-by-16 Frequency vs. Tuning Voltage, Vcc= +5V 6 7 8 9 10 11 12


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PDF HMC738LP4 738LP4E DIVIDE-BY-16, 16mm2 divide-by-16
2008 - H738

Abstract: HMC738LP4 25c2625
Text: HMC738LP4 / 738LP4E v00.0808 MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 20.9 - 23.9 GHz , resonator, negative resistance device, varactor diode and divide-by-16 prescaler. The VCO's phase noise , OUTPUT & DIVIDE-BY-16 , 20.9 - 23.9 GHz Frequency vs. Tuning Voltage, T= 25°C 26 25 FREQUENCY (GHz , & DIVIDE-BY-16 , 20.9 - 23.9 GHz RFOUT/2 Frequency vs. Tuning Voltage, Vcc= +5V 13 12.5 FREQUENCY , (VOLTS) Divide-by-16 Frequency vs. Tuning Voltage, Vcc= +5V Divide-by-16 Output Power vs. Tuning


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PDF HMC738LP4 738LP4E DIVIDE-BY-16, 16mm2 divide-by-16 H738 25c2625
2009 - H738

Abstract: SMA pcb mount Connector HMC738LP4E
Text: HMC738LP4 / 738LP4E v02.0309 MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 20.9 - 23.9 GHz , ) integrates a resonator, negative resistance device, varactor diode and divide-by-16 prescaler. The VCO , HMC738LP4 / 738LP4E v02.0309 MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 20.9 - 23.9 GHz , / HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 20.9 - 23.9 GHz RFOUT/2 Frequency vs. Tuning Voltage, Vcc= +5V , TUNING VOLTAGE (VOLTS) Divide-by-16 Frequency vs. Tuning Voltage, Vcc= +5V 5 6 7 8 9


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PDF HMC738LP4 738LP4E DIVIDE-BY-16, 16mm2 divide-by-16 H738 SMA pcb mount Connector HMC738LP4E
Not Available

Abstract: No abstract text available
Text: HMC739LP4 / 739LP4E v03.0309 MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 23.8 - 26.8 GHz , (E) integrates a resonator, negative resistance device, varactor diode and divide-by-16 prescaler , / HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 23.8 - 26.8 GHz Frequency vs. Tuning Voltage, T= 25Â , HMC739LP4 / 739LP4E v03.0309 MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 23.8 - 26.8 GHz RFOUT/2 , 11 12 13 TUNING VOLTAGE (VOLTS) Divide-by-16 Frequency vs. Tuning Voltage, Vcc = +5V


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PDF HMC739LP4 739LP4E DIVIDE-BY-16, 16mm2 divide-by-16
2013 - Not Available

Abstract: No abstract text available
Text: Input Amplitude Range (Single-Ended) [2] 6 - 12 GHz 12 - 16 GHz 16 - 28 GHz Input Return Loss Input High , kHz Offset 2 2 Min. Typ. 600 600 10 15 -10 -340 -9 -350 200 280 12 / 14 17 / 16 -151 -150 , -3.45 -3.3 -3.15 -3 0 2 4 6 8 10 12 14 16 18 20 22 24 26 , vs. Vee Over Temperature, Divide-by-2 16 14 Rise Time vs. Vee Over Temperature, Divide-by-4 24 20 RISE TIME 20%-80% (ps) 12 10 8 6 4 2 0 -3.6 25C 85C -5C RISE TIME 20%-80% (ps) 16 25C


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PDF HMC791LC4B HMC791LC4B 660mW 600mV 16mm2
2009 - HMC533LP4

Abstract: HMC533LP4E
Text: HMC533LP4 / 533LP4E v00.0405 MMIC VCO w/ DIVIDE-BY-16 , 23.8 - 24.8 GHz Typical Applications Features Low noise MMIC VCO w/ Divide-by-16 for: Pout: +12 dBm · VSAT Radio Phase Noise: -95 dBc , integrate resonators, negative resistance devices, varactor diodes and feature a divide-by-16 output. T he , www.hittite.com HMC533LP4 / 533LP4E v00.0405 MMIC VCO w/ DIVIDE-BY-16 , 23.8 - 24.8 GHz Frequency vs , www.hittite.com 12 - 151 HMC533LP4 / 533LP4E v00.0405 MMIC VCO w/ DIVIDE-BY-16 , 23.8 - 24.8 GHz SSB


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PDF HMC533LP4 533LP4E DIVIDE-BY-16, w/Divide-by-16 HMC533LP4 HMC533LP4E divide-by-16
2010 - Not Available

Abstract: No abstract text available
Text: dBm 12 - 16 GHz -20 +3 dBm 16 - 28 GHz Input Amplitude Range (Single-Ended) [2 , @ 28 GHz Input, 20% - 80% 17 / 16 ps Additive Random Jitter [1] CK/2 SSB Phase Noise , 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 FREQUENCY , (V) RISE TIME 20%-80% (ps) 12 10 8 25C 85C -5C 6 4 20 16 25C 85C -5C 12 , Temperature, Divide-by-2 -3.15 -3 Fall Time vs. Vee Over Temperature, Divide-by-4 24 16 FALL


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PDF HMC791LC4B HMC791LC4B 660mW 600mV
CM10

Abstract: VCA25 VCA27
Text: 4MHz Divide-by-16 AIcc vs Avcc Icc VS f(XIN) (High-speed clock mode) Prepared on Jul. 16 , on-chip oscillator on = 125 kHz fOCO=5MHz no division fOCO=5MHz divide-by-8 fOCO=4MHz divide-by-16 , Divide-by-16 MSTIIC = MSTTRD = MSTTRC = 1 85degreesC 25degreesC -40degreesC 10.0 9.0 8.0 Icc , R8C/36C Group Current Consumption Page 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 , 43 44 Prepared on Jul. 16 , 2010 Icc VS f(XIN) (High-speed clock mode) Topr = 25 degrees C Vcc =


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PDF R8C/36C 10MHz, 10MHz 16MHz, 16MHz 20MHz, 20MHz 10-bit CM10 VCA25 VCA27
CM10

Abstract: VCA25 VCA27
Text: 4MHz Divide-by-16 AIcc vs Avcc Icc VS f(XIN) (High-speed clock mode) Prepared on Jul. 16 , on-chip oscillator on = 125 kHz fOCO=5MHz no division fOCO=5MHz divide-by-8 fOCO=4MHz divide-by-16 , High-speed on-chip oscillator on = 4MHz Low-speed on-chip oscillator on = 125 kHz Divide-by-16 MSTIIC = , R8C/38C Group Current Consumption Page 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 , 43 44 Prepared on Jul. 16 , 2010 Icc VS f(XIN) (High-speed clock mode) Topr = 25 degrees C Vcc =


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PDF R8C/38C 10MHz, 10MHz 16MHz, 16MHz 20MHz, 20MHz 10-bit CM10 VCA25 VCA27
2004 - BCM8212

Abstract: f 8212
Text: dissipation: 1.2W typical Selectable divide-by-32 or divide-by-16 receiver/ transmitter low-speed parallel , Divide-by-16 2.488 GHz PLL REFCKN REF 155EN DOSQ RCK16SQ TCK16ON TXLKDT F LVPECL REF , LOSIB E VCN_CDR VCP_CDR RCK1SEL REFCKENB LPBKFB TSEL LPBKSB K CDR Divide-by-16 F , external heat sinks, fans serial I/O · Fully integrated CDR, MUX, DEMUX, and CMU with 16 -bit, 155.52 , . · Target applications: · OC-48/STM- 16 transmission equipment · SONET/SDH optical modules · ADD


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PDF BCM8212 488-Gbps 16-bit, 52-MHz 8212-PB05-R BCM8212 f 8212
2012 - Not Available

Abstract: No abstract text available
Text: Current Input Frequency 1.0 - 6 GHz Input Amplitude Range (Single-Ended) [2] 6 - 12 GHz 12 - 16 GHz 16 - , -10 -340 -9 -350 200 280 12 / 14 17 / 16 -151 -150 Max. Units mV mV dB dB mV mV mV mV fs fs ps , 10 12 14 16 18 20 22 24 26 28 30 SUPPLY VOLTAGE Vee (V) FREQUENCY , , Divide-by-2 16 14 Rise Time vs. Vee Over Temperature, Divide-by-4 24 20 RISE TIME 20%-80% (ps) 12 10 8 6 4 2 0 -3.6 25C 85C -5C RISE TIME 20%-80% (ps) 16 25C 85C -5C 12 8 4 -3.45


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PDF HMC791LC4B HMC791LC4B 660mW 600mV 16mm2
2010 - H738

Abstract: HMC738LP4E 8 GHz VCO hmc738
Text: HMC738LP4 / 738LP4E v02.0309 MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 20.9 - 23.9 GHz , ) integrates a resonator, negative resistance device, varactor diode and divide-by-16 prescaler. The VCO , apps@hittite.com HMC738LP4 / 738LP4E v02.0309 MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 20.9 - , 8-2 HMC738LP4 / 738LP4E v02.0309 MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 20.9 - , ) Divide-by-16 Frequency vs. Tuning Voltage, Vcc= +5V 6 7 8 9 10 11 12 13 -2


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PDF HMC738LP4 738LP4E DIVIDE-BY-16, divide-by-16 H738 HMC738LP4E 8 GHz VCO hmc738
2010 - H739

Abstract: HMC739LP4 diode marking c2 sma HMC739LP4E
Text: HMC739LP4 / 739LP4E v03.0309 MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 23.8 - 26.8 GHz , ) integrates a resonator, negative resistance device, varactor diode and divide-by-16 prescaler. The VCO , FREQUENCY OUTPUT & DIVIDE-BY-16 , 23.8 - 26.8 GHz Frequency vs. Tuning Voltage, T= 25°C Frequency vs , HMC739LP4 / 739LP4E v03.0309 MMIC VCO w/ HALF FREQUENCY OUTPUT & DIVIDE-BY-16 , 23.8 - 26.8 GHz RFOUT/2 , 11 12 13 TUNING VOLTAGE (VOLTS) Divide-by-16 Frequency vs. Tuning Voltage, Vcc = +5V


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PDF HMC739LP4 739LP4E DIVIDE-BY-16, divide-by-16 H739 diode marking c2 sma HMC739LP4E
2009 - Not Available

Abstract: No abstract text available
Text: Input Amplitude Range (Single-Ended) [2] 6 - 12 GHz 12 - 16 GHz 16 - 28 GHz Input Return Loss Input High , 280 12 / 14 17 / 16 -151 -150 Max. Units mV mV dB dB mV mV mV mV fs fs ps ps dBc/Hz dBc/Hz 7 , 4 6 8 10 12 14 16 18 20 22 24 26 28 30 FREQUENCY (GHz) [2] See recommended single ended , Temperature, Divide-by-2 16 14 RISE TIME 20%-80% (ps) 12 10 8 6 4 2 0 -3.6 25C 85C -5C Rise Time vs. Vee Over Temperature, Divide-by-4 24 20 16 12 8 4 0 -3.6 25C 85C -5C RISE TIME 20%-80% (ps) -3.45


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PDF HMC791LC4B HMC791LC4B 660mW 600mV
2010 - Not Available

Abstract: No abstract text available
Text: dBm 12 - 16 GHz -20 +3 dBm 16 - 28 GHz Input Amplitude Range (Single-Ended) [2 , Input, 20% - 80% 12 / 14 ps CK/4 Output Rise/Fall Time @ 28 GHz Input, 20% - 80% 17 / 16 , 12 14 16 18 20 22 24 26 28 30 FREQUENCY (GHz) [2] See recommended , 16 RISE TIME 20%-80% (ps) 14 RISE TIME 20%-80% (ps) HIGH SPEED LOGIC - SMT 7 DIFFERENTIAL VOLTAGE (mV) 800 12 10 8 25C 85C -5C 6 4 20 16 25C 85C -5C 12 8


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PDF HMC791LC4B HMC791LC4B 660mW 600mV
1999 - LT602

Abstract: LTC1569-6 LTC1569C LTC1569CS8-6 LTC1569I LTC1569IS8-6 39VP-P 3844n
Text: as the clock source and the divideby-4 or divide-by-16 mode is enabled, the supply current is reduced , divide-by-16 modes the power supply current is reduced by as much as 40%. When the internal oscillator is , ­ RX DIV/CLK 6 DIVIDE-BY-16 5 64kHz (10k/REXT) 100pF DIVIDE-BY-1 1, 4 OR 16 Figure 1 , 16kHz ±3.5% *REXT values less than 10k can be used only in the divide-by-16 mode. In the divide-by-4 and divide-by-16 modes, the cutoff frequencies in Table 1 will be lowered by 4 and 16


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PDF LTC1569-6 64kHz LTC1264-7 200kHz LTC1562/LTC1562-2 150kHz LTC1562) 300kHz LTC1562-2) LTC1563-2/LTC1563-3 LT602 LTC1569-6 LTC1569C LTC1569CS8-6 LTC1569I LTC1569IS8-6 39VP-P 3844n
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