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| BIPOLAR DIGITAL INTEGRATED CIRCUIT UPB1509GV NEC's 1.0 GHz DIVIDE BY 2/4/8 PRESCALER FEATURES * HIGH FREQUENCY OPERATION TO 1 GHz * SELECTABLE DIVIDE RATIO: /2, /4, /8 * WIDE SUPPLY VOLTAGE RANGE: 2.2 TO 5 V * LOW SUPPLY CURRENT: 5.3 mA * SMALL PACKAGE: 8 pin SSOP * AVAILABLE IN TAPE AND REEL C fIN C 1 VCC1 2 IN 3 IN 4 GND VCC2 8 C OUT 7 SW2 6 C SW1 5 C C = 1000 pF VOUT C TEST CIRCUIT VCC C DESCRIPTION NEC's UPB1509GV is a Silicon RFIC digital prescaler manufactured with the NESATTM IV silicon bipolar process. It features frequency response to 1 GHz, selectable divide-by-two, four, or eight modes, and operates from a 3 to 5 volt supply while drawing only 5.3 milliamps. The device is housed in a small 8 pin SSOP package that contributes to system miniaturization. The low power consumption and wide supply range makes the device well suited for cellular and cordless telephones as well as DBS receiver applications. ELECTRICAL CHARACTERISTICS (TA = -40 to +85C, VCC = 2.2 to 5.5 V, unless otherwise noted) PART NUMBER PACKAGE OUTLINE SYMBOLS ICC fIN (u) PARAMETERS AND CONDITIONS Supply Current, No Input Signal, Vcc = 3 V Upper Limit Operating Frequency, PIN = -20 to 0 dBm PIN = -20 to -5 dBm at / 2 at / 4 at / 8 Lower Limit Operating Frequency, PIN = -20 to 0 dBm PIN = -20 to -5 dBm Input Power, fIN = 50 to 1000 MHz fIN = 50 to 500 MHz Output Voltage, RL = 200 Division Ratio Control Voltage High Division Ratio Control Voltage Low UNITS mA MHz MHz MHz MHz MHz MHz dBm dBm VP-P V V -20 -20 0.1 0.2 VCC OPEN MIN 3.5 500 700 800 1000 50 500 -5 0 UPB1509GV S08 TYP 5.0 MAX 5.9 fIN (L) PIN VOUT VIN(H) VIN(L) The information in this document is subject to change without notice. Before using this document, please confirm that this is the latest version. Date Published: June 28, 2005 UPB1509GV ABSOLUTE MAXIMUM RATINGS1 (TA = 25C) SYMBOLS PARAMETERS UNITS V V mW C C RATINGS 6.0 6.0 250 -45 to +85 -55 to +150 VCC1, VCC2 Supply Voltage VIN PD TOP TSTG Input Voltage Power Dissipation2 Operating Temperature Storage Temperature RECOMMENDED OPERATING CONDITIONS SYMBOL PARAMETER UNITS MIN TYP MAX V C 2.2 -40 3.0 +25 5.5 +85 VCC1, VCC2 Supply Voltage TOP Operating Temperature Notes: 1. Operation in excess of any one of these parameters may result in permanent damage. 2. Mounted on a double-sided copper clad 50x50x1.6 mm epoxy glass PWB (TA = +85C). INTERNAL BLOCK DIAGRAM IN IN DQ CLK Q DQ CLK Q DQ CLK Q OUT SW1 SW2 PIN DESCRIPTIONS Pin No. 1 2 3 4 5 Symbol VCC1 IN IN GND SW1 Applied Voltage 2.2 to 5.5 - - 0 H/L (VCC/OPEN) H/L (VCC/OPEN) SW1 L (OPEN) 1/4 1/8 H (VCC) Pin Voltage - 1.7 to 4.95 1.7 to 4.95 - - Description Power supply pin of input amplifier and dividers. This pin must be equipped with bypass capacitor (eg 1000 pF) to ground. Signal input pin. This pin should be coupled with a capacitor (eg 1000 pF). Signal input bypass pin. This pin must be equipped with a bypass capacitor (eg 1000 pF) to ground. Ground pin. Ground pattern on the board should be formed as wide as possible to minimize ground impedance. Divided ratio control pin. Divide ratio can be controlled by the following input voltages to these pins. SW2 H (VCC) 1/2 L (OPEN) 1/4 6 SW2 These pins must each be equipped with a bypass capacitor to ground. 7 OUT - 1.0 to 4.7 Divided frequency output pin. This pin is designed as an emitter follower output. This pin can output 0.1 Vp-p min with a 200 load. This pin should be coupled to load device with a capacitor (eg 1000 pF). Power supply pin of output buffer amplifier. This pin must be equipped with bypass capacitor (eg 1000 pF) to ground. 8 VCC2 2.2 to 5.5 - UPB1509GV TYPICAL PERFORMANCE CURVES (TA = +25C unless otherwise noted) CIRCUIT CURRENT vs. SUPPLY VOLTAGE and TEMPERATURE 9 8 +20 +10 INPUT POWER vs. INPUT FREQUENCY and VOLTAGE Circuit Current, ICC (mA) TA = -40C VCC = 3.0 V Input Power, PIN (dBm) 7 6 5 4 3 2 1 0 0 1 2 3 4 5 6 TA = +25C TA = +85C 0 -10 -20 -30 -40 -50 -60 VCC = 5.5 V VCC = 2.2 V Guaranteed Operating Window VCC = 2.2 V Recommended operating range VCC = 3.0 V TA = +25C 10 100 VCC = 5.5 V 1000 2000 Supply Voltage, VCC (V) Input Frequency, fin (MHz) INPUT POWER vs. INPUT FREQUENCY and TEMPERATURE +20 +10 TA = +25C INPUT POWER vs. INPUT FREQUENCY and TEMPERATURE +20 TA = +25C +10 Input Power, PIN (dBm) 0 -10 -20 Input Power, PIN (dBm) TA = -40C TA = +85C TA = +85C 0 -10 -20 -30 -40 -50 TA = -40C VCC = 2.2 V 10 TA = -40C Guaranteed operating window Guaranteed operating window TA = +85C -30 -40 -50 -60 TA = -40C VCC = 3.0 V 10 100 TA = +25C TA = +85C TA = +25C 100 1000 2000 -60 1000 2000 Input Frequency, fin (MHz) Input Frequency, fin (MHz) INPUT POWER vs. INPUT FREQUENCY and TEMPERATURE +20 +10 TA = +25C TA = -40C TA = +85C OUTPUT VOLTAGE SWING vs. INPUT FREQUENCY and VOLTAGE VCC = 3.0 V PIN = 0 dBm OutputVoltage Swing, VP-P (V) 0.3 TA = +25C TA = +85C TA = +25C Input Power, PIN (dBm) 0 -10 -20 -30 -40 -50 -60 TA = -40C TA = +25C VCC = 5.5 V 10 100 1000 2000 TA = +85C Guaranteed operating window 0.2 TA = -40C TA = +85C TA = -40C 0.1 0 10 100 1000 2000 Input Frequency, fin (MHz) Input Frequency, fin (MHz) UPB1509GV TYPICAL PERFORMANCE CURVES (TA = +25C unless otherwise noted) OUTPUT VOLTAGE SWING vs. INPUT FREQUENCY and VOLTAGE TA = +25C PIN = 0 dBm VCC = 5.5 V OUTPUT VOLTAGE SWING vs. INPUT FREQUENCY and VOLTAGE TA = -40C PIN = 0 dBm OutputVoltage Swing, VP-P (V) OutputVoltage Swing, VP-P (V) 0.3 0.3 VCC = 5.5 V VCC = 3.0 V 0.2 VCC = 2.2 V VCC = 3.0 V 0.2 VCC = 2.2 V 0.1 0.1 0 10 100 1000 2000 0 10 100 1000 2000 Input Frequency, fin (MHz) Input Frequency, fin (MHz) OUTPUT VOLTAGE SWING vs. INPUT FREQUENCY and VOLTAGE TA = +85C PIN = 0 dBm VCC = 5.5 V OutputVoltage Swing, VP-P (V) 0.3 VCC = 3.0 V 0.2 VCC = 2.2 V 0.1 0 10 100 1000 2000 Input Frequency, fin (MHz) Divide by 4 mode (Guaranteed operating window: VCC = 2.2 to 5.5 V, TA = -40 to +85C) INPUT POWER vs. INPUT FREQUENCY and VOLTAGE +20 +10 VCC = 5.5 V INPUT POWER vs. INPUT FREQUENCY and TEMPERATURE +20 +10 TA = +85C TA = -40C TA = +25C Guaranteed operating window Input Power, PIN (dBm) 0 VCC = 2.2 V -10 -20 -30 -40 VCC = 5.5 V -50 -60 TA = +25C 10 Input Power, PIN (dBm) VCC = 3.0 V Guaranteed Operating Window 0 -10 -20 -30 -40 -50 -60 VCC = 2.2 V TA = +85C VCC = 3.0 V VCC = 5.5 V 100 1000 2000 TA = -40C VCC = 3.0 V 10 100 TA = +25C 1000 2000 Input Frequency, fin (MHz) Input Frequency, fin (MHz) UPB1509GV TYPICAL PERFORMANCE CURVES (TA = +25C unless otherwise noted) INPUT POWER vs. INPUT FREQUENCY and TEMPERATURE +20 +10 TA = +85C TA = +25C TA = -40C Guaranteed operating window INPUT POWER vs. INPUT FREQUENCY and TEMPERATURE +20 +10 TA = -40C Input Power, PIN (dBm) Input Power, PIN (dBm) 0 -10 -20 -30 -40 -50 -60 VCC = 3.0 V 10 100 0 -10 -20 TA = +85C TA = +25C Guaranteed operating window TA = -40C TA = +85C -30 -40 -50 -60 TA = -40C VCC = 5.5 V 10 100 TA = +85C TA = -40C TA = +25C TA = +25C 1000 2000 1000 2000 Input Frequency, fin (MHz) Input Frequency, fin (MHz) Divide by 8 mode (Guaranteed operating window: VCC = 2.2 to 5.5 V, TA = -40 to +85 C) INPUT POWER vs. INPUT FREQUENCY and VOLTAGE +20 +10 VCC = 5.5 V +20 TA = +25C +10 TA = -40C TA = +85C Guaranteed operating window INPUT POWER vs. INPUT FREQUENCY and TEMPERATURE Input Power, PIN (dBm) 0 -10 -20 -30 -40 -50 -60 TA = +25C 10 Guaranteed Operating Window Input Power, PIN (dBm) VCC = 2.2 V VCC = 3.0 V 0 -10 -20 -30 -40 TA = -40C VCC = 2.2 V TA = +85C TA = -40C -50 VCC = 5.5 V VCC = 3.0 V 100 1000 2000 -60 VCC = 3.0 V 10 100 TA = +25C 1000 2000 Input Frequency, fin (MHz) Input Frequency, fin (MHz) INPUT POWER vs. INPUT FREQUENCY and TEMPERATURE +20 TA = +85C +10 TA = +25C +20 +10 INPUT POWER vs. INPUT FREQUENCY and TEMPERATURE Input Power, PIN (dBm) 0 -10 -20 TA = +25C Guaranteed operating window Input Power, PIN (dBm) TA = -40C TA = -40C 0 -10 -20 -30 -40 -50 TA = -40C VCC = 5.5 V 10 TA = +85C TA = +25C Guaranteed operating window TA = +85C -30 -40 TA = -40C -50 TA = +25C -60 VCC = 2.2 V 10 100 1000 2000 TA = +85C TA = +25C 100 1000 2000 -60 Input Frequency, fin (MHz) Input Frequency, fin (MHz) UPB1509GV TYPICAL SCATTERING PARAMETERS (TA = 25C) S11 vs. INPUT FREQUENCY VCC1 = VCC2 = 3.0 V, SW1 = SW2 = 3.0 V FREQUENCY S11 MAG 0.929 0.898 0.866 0.840 0.834 0.819 0.803 0.792 0.787 0.771 ANG -6.7 -10.5 -13.6 -15.9 -19.1 -21.9 -24.7 -27.0 -30.0 -32.7 S11 REF 1.0 Units/ 2 200.0 mUnits/ 55.375 -142.79 GHz 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 1 2 MARKER 2 700.0 MHZ 3 START 0.050000000 GHz STOP 1.000000000 GHz S22 vs. OUTPUT FREQUENCY S22 REF 1.0 Units 200.0 mUnits/ Z 50 MHz 149.09 + j 14.86 350 MHz 194.21 - j 36.64 START 0.050000000 GHz STOP 0.350000000 GHz UPB1509GV SYSTEM APPLICATION EXAMPLE RX DEMO I Q SW VCO N PLL N 0 PLL PB1509GV I TX PA 90 Q OUTLINE DIMENSIONS (Units in mm) PACKAGE OUTLINE S08 8 7 6 5 1 2 8 7 6 5 1509 Detail of Lead End N 3 4 1 2 3 3.0 MAX 4 +0.10 0.15 -0.05 3 -3 +7 4.94 0.2 3.20.1 0.870.2 PIN CONNECTIONS 1. VCC1 2. IN 3. IN 5. SW1 6. SW2 7. OUT 8. VCC2 1.50.1 1.8 MAX 0.1 0.1 0.65 +0.10 0.3 -0.05 0.5 0.2 0.575 MAX 0.15 4. GND ORDERING INFORMATION (Solder Contains Lead) PART NUMBER UPB1509GV-E1 QUANTITY 1000/Reel ORDERING INFORMATION (Pb-Free) PART NUMBER UPB1509GV-E1-A QUANTITY 1000/Reel Life Support Applications These NEC products are not intended for use in life support devices, appliances, or systems where the malfunction of these products can reasonably be expected to result in personal injury. The customers of CEL using or selling these products for use in such applications do so at their own risk and agree to fully indemnify CEL for all damages resulting from such improper use or sale. A Business Partner of NEC Compound Semiconductor Devices, Ltd. 4590 Patrick Henry Drive Santa Clara, CA 95054-1817 Telephone: (408) 919-2500 Facsimile: (408) 988-0279 Subject: Compliance with EU Directives CEL certifies, to its knowledge, that semiconductor and laser products detailed below are compliant with the requirements of European Union (EU) Directive 2002/95/EC Restriction on Use of Hazardous Substances in electrical and electronic equipment (RoHS) and the requirements of EU Directive 2003/11/EC Restriction on Penta and Octa BDE. CEL Pb-free products have the same base part number with a suffix added. The suffix -A indicates that the device is Pb-free. The -AZ suffix is used to designate devices containing Pb which are exempted from the requirement of RoHS directive (*). In all cases the devices have Pb-free terminals. All devices with these suffixes meet the requirements of the RoHS directive. This status is based on CEL's understanding of the EU Directives and knowledge of the materials that go into its products as of the date of disclosure of this information. Restricted Substance per RoHS Lead (Pb) Mercury Cadmium Hexavalent Chromium PBB PBDE Concentration Limit per RoHS (values are not yet fixed) < 1000 PPM < 1000 PPM < 100 PPM < 1000 PPM < 1000 PPM < 1000 PPM Concentration contained in CEL devices -A Not Detected Not Detected Not Detected Not Detected Not Detected Not Detected -AZ (*) If you should have any additional questions regarding our devices and compliance to environmental standards, please do not hesitate to contact your local representative. Important Information and Disclaimer: Information provided by CEL on its website or in other communications concerting the substance content of its products represents knowledge and belief as of the date that it is provided. CEL bases its knowledge and belief on information provided by third parties and makes no representation or warranty as to the accuracy of such information. Efforts are underway to better integrate information from third parties. CEL has taken and continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals. CEL and CEL suppliers consider certain information to be proprietary, and thus CAS numbers and other limited information may not be available for release. In no event shall CEL's liability arising out of such information exceed the total purchase price of the CEL part(s) at issue sold by CEL to customer on an annual basis. See CEL Terms and Conditions for additional clarification of warranties and liability. |
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