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SI9113D2 Datasheet
Designer's Data for "Worst Case" Conditions The Oesjgners Data sheet: permit the design of most circuits entirel\ from the in- formation presented. Lfmit curves - represeming boundaries on device characleris- tics - are given to facilitate "worst case" desigri.
SI9113D2 Price

T=25C
IB= -300 U-
250iyA
-200 U-
150uA
-1 00A
5I JyA


SI9113D2 on stock

Parameter B Version B Chips2 Unit Test Conditions/Comments
RF/IF CHARACTERISTICS (3 V) RF Input Frequency (RFIN) ADF4216 ADF4217 ADF4218 IF Input Frequency (IFIN) RF Input Sensitivity IF Input Sensitivity Maximum Allowable Prescaler Output Frequency3 0.2/1.2 0.2/2.0 0.5/2.5 45/550 -1 5/+4 -1 0/+4 165 0.2/1.2 0.2/2.0 0.5/2.5 45/550 -15/+4 -1 0/+4 165 GHz min/max GHz min/max GHz min/max MHz min/max dBm min/max dBm min/max MHz max See Figure 3 for Input Circuit. For lower frequency operation (below the minimum stated) use a square wave source.
RF/IF CHARACTERISTICS (5 V) RF Input Frequency (RFIN) ADF4216 ADF4217 ADF4218 IF Input Frequency (IFIN) RF Input Sensitivity IF Input Sensitivity Maximum Allowable Prescaler Output Frequency3 0.2/1.2 0.2/2.0 0.5/2.5 25/550 -1 5/+4 -1 0/+4 200 0.2/1.2 0.2/2.0 0.5/2.5 25/550 -1 5/+4 -1 0/+4 200 GHz min/max GHz min/max GHz min/max MHz min/max dBm min/max dBm min/max MHz max See Figure 3 for Input Circuit. For lower frequency operation (below the minimum stated) use a square wave source.
REFIN CHARACTERISTICS REFIN Input Frequency REFIN Input Sensitivity4 REFIN Input Capacitance REFIN Input Current 5/40 0.5 10 +100 5/40 0.5 10 +100 MHz min/max V p-p min pF max LiA max For f < 5 MHz, use dc-coupled square wave (0 to VDD). AC-Coupled. When DC-Coupled: 0 to VDD max (CMOS-Compatible)
PHASE DETECTOR Phase Detector Frequency5 40 40 MHz max
CHARGE PUMP ICP Sink/Source High Value Low Value Absolute Accuracy ICP Three-State Leakage Current Sink and Source Current Matching ICP VS. VCP ICP VS. Temperature 4.5 1.12 5 1 1 1 10 10 4.5 1.12 5 1 1 1 10 10 mA typ mA typ % typ nA typ % typ % max % typ 0.5 V S VCP S VP - 0.5 V VCP = Vp/2
LOGIC INPUTS VINH, Input High Voltage VINL, Input Low Voltage IINH/IINL, Input Current CIN, Input Capacitance Oscillator Input Current 0.8 x VDD 0.2 x VDD +1 10 +100 0.8 x VDD 0.2 x VDD +1 10 +100 V min V max UA max pF max UA max
LOGIC OUTPUTS VOH, Output High Voltage VOL, Output Low Voltage VDD - 0.4 0.4 VDD - 0.4 0.4 V min V max IOH = 500 LiA IOL = 500 hiA
POWER SUPPLIES VDD1 VDD2 VP 2.7/5.5 VDD1 VDDl/6.0 2.7/5.5 VDD1 VDDl/6.0 V minN max V minN max AVDD < VP < 6.0 V


Forward-Current Transfer Ratio Ic = 50 mAdc, VCE = 5.0 Vdc Ic = 1.0 Adc, VCE = 2.0 Vdc IC = 5.0 Adc, VCE = 5.0 Vdc hFE 40 40 15 120 120
Base-Emitter Voltage Non-Saturated VCE = 2.0 Adc, Ic =1.0 Adc VBE 1.2 Vdc
Collector-Emitter Saturation Voltage Ic = 1.0 Adc, IB = 0.1 Adc Ic = 5.0 Adc, IB = 0.5 Adc VCE( sat) 0.25 1.5 Vdc
Base-Emitter Saturation Voltage Ic = 1.0 Adc, IB = 0.1 Adc VBE(sat) 1.2 Vdc


 
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