NJU6214 Series Small-Sized 1.8V Operating Voltage Fundamental Quartz Crystal Oscillator IC !GENERAL DESCRIPTION The NJU6214 series is a C-MOS quartz crystal oscillator IC realized excellent frequency stability for fundamental (up to 60MHz) oscillation, and consists of an oscillation amplifier, 4-stage divider, 3-state output buffer and a built-in LDO. The operating voltage is from 1.62V to 3.63V, and the LDO holds down the characteristic change of the oscillation amplifier for operating voltage variation, and has been stabilized oscillation frequency. The 4-stage divider generates only one frequency selected of f0,f0/2,f0/4 f0/8 and f0/16 internal circuits is output. The 3-state output buffer is C-MOS compatible of high fan-out. The oscillation stopping current is very low stand-by mode below 1uA, therefore, it is suitable for the portable items of the communication equipment and the like. The pad arranges “L” location to be easy to put on 2016 size oscillator by wire bonding. !PACKAGE OUTLINE !FEATURES "Frequency Stability ±1ppm@VDD±10% "Operating Voltage 1.62 to 3.63V "Maximum Oscillation Frequency Up to 60MHz "Low Operating Current 5mA typ.@60MHz/3.3V/15pF "4-Stage Divider Maximum Divider f0/16 "Built-in LDO "Oscillation Stop and Output Stand-by Function "3-State Output Buffer "Variable Pull-up Resistance on-Die "Oscillation Capacitors Cg and Cg on-Die "Package Outline Die/Wafer "C-MOS Technology !PAD LOCATION !LINE-UP TABLE !COORDINATES Type No. FOUT A f0 B f0/2 f0/4 NJU6214 C D f0/8 *E f0/16 * Under Development Internal Connect Short Open N A B B A 2 B A 4 B A 8 B A 16 !EXAMPLE OF PART NUMBER 1)NJU6214AW-L FOUT=f0, Wafer Thickness=140um 2)NJU6214CC-V FOUT= f0/4, Die Thickness=130um Cg/Cd 9.3/10.7pF 9.3/10.7pF 9.3/10.7pF 9.3/10.7pF 9.3/10.7pF NJU6214XC-X Die VDD VSS FOUT XTI XTO CONT No Pad Name X Y 1 CONT -189 231 2 XTI -189 77 3 XTO -189 -77 4 VSS -189 -231 5 FOUT 215 -231 6 VDD 222 231 Starting Point: Die Center Unit[um] Die Size: 0.64x0.60mm Die Thickness (C-V): 130±10um Die Thickness (C-L): 140±10um Wafer Thickness (W-V): 130±10um Wafer Thickness (W-L): 140±10um Pad size: 70x70um Die Substrate: VSS level 2010/04/27 ( 1 / 7 ) NJU6214 Series !BLOCK DIAGRAM VDD VSS Regulator XTO Rf Level Shifter XTI Cg Cd 1/N Divider A OSC Detector B 3-State Buffer FOUT CONT !TERMINAL DESCRIPTION SYMBOL FUNCTION Oscillation and 3-state Output Buffer Control CONT FOUT Output either one frequency selected of f0, CONT H or OPEN f0/2,f0/4,f0/8 and f0/16 Note1) L Oscillation Stop and High impedance Output XTI Quartz Crystal Connecting Terminals XTO VSS VSS=0V : GND FOUT Frequency Output VDD VDD=1.62 to 3.63V Note1) Refer to the line-up table. !ABSOLUTE MAXIMUM RATINGS (VSS=0V, Ta=25°C) PARAMETER SYMBOL RATING UNIT Supply Voltage VDD -0.5 to +7.0 V Input Voltage VIN -0.5 to VDD+0.5 V Output Voltage VO -0.5 to VDD+0.5 V Input Current IIN mA ±10 Output Current IO mA ±25 Operating Temperature Range Topr -40 to +85 °C Storage Temperature Range Tstg -55 to +125 °C Note2) If the supply voltage(VDD) is less than 7.0V, the input voltage must not over the VDD level though 7.0V is limit specified. Note3) Decupling capacitor should be connected between VDD and VSS due to the stabilized operation for the circuit. 2010/04/27 ( 2 / 7 ) NJU6214 Series !ELECTRICAL CHARACTERISTICS PARAMETER Operating Voltage Output Frequency Stability SYMBOL VDD PARAMETER SYMBOL df/f Operating Current IDD Oscillation Stopping Current ISTB Input Voltage Output Voltage Input Current VIH VIL VOH VOL IIN CONDITIONS fosc=60MHz MIN 1.62 VDD±10% CONDITIONS A version, f0=60MHz, CL=15pF B version, f0/2=30MHz, CL=15pF C version, f0/4=15MHz, CL=15pF D version, f0/8=7.5MHz, CL=15pF *E version, f0/16=3.75MHz, CL=15pF TYP ±1 MIN (Ta=25°C) UNIT V ppm (VDD=1.8V,Ta=+25°C) TYP MAX UNIT 3.0 4.0 1.8 2.6 mA 1.3 2.0 1.0 2.0 0.9 2.0 CONT=VSS, No load IOH=2mA IOL=2mA CONT=0.8VDD CONT=0.2VDD MAX 3.63 1.26 0 1.62 1.9 0.1 1 uA 1.8 0.54 V V V V uA uA 0.18 2.7 0.25 3-state Off Leakage IOZ CONT=VSS, FOUT= VDD or VSS ±0.1 uA Current Feedback Resistance Rf 270 kΩ Internal Capacitor Cg fosc=60MHz 9.3 pF Internal Capacitor Cd fosc=60MHz 10.7 pF Oscillation Frequency fosc Recommendation Note4) 60 MHz Output Signal 45 50 55 % SYM CL=15pF, @VDD/2 Symmetry Output Signal Rise 3.2 5.0 ns tr CL=15pF, 0.1VDD to 0.9VDD Time Output Signal Fall 3.2 5.0 ns tf CL=15pF, 0.9VDD to 0.1VDD Time Output Disable time TPOZ CL=15pF, RL=1kΩ 100 ns Output Enable Time TPZO CL=15pF 1 ms Note4) The oscillation frequency range has used NJRC’s standard crystal for measurement. However it is not guaranteed. (Refer to EXAMPLE OF CRYSTAL PARAMETERS FOR MEASUREMENT CIRCUITS) * Under Development. 2010/04/27 ( 3 / 7 ) NJU6214 Series PARAMETER SYMBOL Operating Current IDD Oscillation Stopping Current ISTB Input Voltage Output Voltage Input Current VIH VIL VOH VOL IIN CONDITIONS A version, f0=60MHz, CL=15pF B version, f0/2=30MHz, CL=15pF C version, f0/4=15MHz, CL=15pF D version, f0/8=7.5MHz, CL=15pF *E version, f0/16=3.75MHz, CL=15pF MIN (VDD=2.5V,Ta=+25°C) TYP MAX UNIT 3.7 5.0 2.4 3.3 mA 1.6 2.4 1.2 2.0 1.0 2.0 CONT=VSS, No load IOH=4mA IOL=4mA CONT=0.8VDD CONT=0.2VDD 1.75 0 2.25 4.2 0.3 1 uA 2.5 0.75 V V V V uA uA 0.25 9.0 0.6 3-state Off Leakage CONT=VSS, FOUT= VDD or VSS ±0.1 uA IOZ Current Feedback Resistance Rf 270 kΩ Internal Capacitor Cg fosc=60MHz 9.3 pF Internal Capacitor Cd fosc=60MHz 10.7 pF Oscillation Frequency fosc Recommendation Note4) 60 MHz Output Signal 45 50 55 % SYM CL=15pF, @VDD/2 Symmetry Output Signal Rise tr CL=15pF, 0.1VDD to 0.9VDD 2.2 3.7 ns Time Output Signal Fall 2.2 3.7 ns tf CL=15pF, 0.9VDD to 0.1VDD Time Output Disable time TPOZ CL=15pF, RL=1kΩ 100 ns Output Enable Time TPZO CL=15pF 1 ms Note4) The oscillation frequency range has used NJRC’s standard crystal for measurement. However it is not guaranteed. (Refer to EXAMPLE OF CRYSTAL PARAMETERS FOR MEASUREMENT CIRCUITS) * Under Development. 2010/04/27 ( 4 / 7 ) NJU6214 Series PARAMETER SYMBOL Operating Current IDD Oscillation Stopping Current ISTB Input Voltage Output Voltage Input Current VIH VIL VOH VOL IIN CONDITIONS A version, f0=60MHz, CL=15pF B version, f0/2=30MHz, CL=15pF C version, f0/4=15MHz, CL=15pF D version, f0/8=7.5MHz, CL=15pF *E version, f0/16=3.75MHz, CL=15pF MIN (VDD=3.3V,Ta=+25°C) TYP MAX UNIT 5.0 7.0 3.2 4.4 mA 2.2 3.0 1.7 2.5 1.5 2.3 CONT=VSS, No load IOH=6mA IOL=6mA CONT=0.8VDD CONT=0.2VDD 2.31 0 2.97 7.8 0.6 10 uA 3.3 0.99 V V V V uA uA 0.33 16.0 1.2 3-state Off Leakage IOZ CONT=VSS, FOUT= VDD or VSS ±0.1 uA Current Feedback Resistance Rf 270 kΩ Internal Capacitor Cg fosc=60MHz 9.3 pF Internal Capacitor Cd fosc=60MHz 10.7 pF Oscillation Frequency fosc Recommendation Note4) 60 MHz Output Signal 45 50 55 % SYM CL=15pF, @VDD/2 Symmetry Output Signal Rise 1.8 3.0 ns tr CL=15pF, 0.1VDD to 0.9VDD Time Output Signal Fall 1.8 3.0 ns tf CL=15pF, 0.9VDD to 0.1VDD Time Output Disable time TPOZ CL=15pF, RL=1kΩ 100 ns Output Enable Time TPZO CL=15pF 1 ms Note4) The oscillation frequency range has used NJRC’s standard crystal for measurement. However it is not guaranteed. (Refer to EXAMPLE OF CRYSTAL PARAMETERS FOR MEASUREMENT CIRCUITS) * Under Development. 2010/04/27 ( 5 / 7 ) NJU6214 Series !EXAMPLE OF CRYSTAL PARAMETERS FOR MEASUREMENT CIRCUITS L1 C1 R1 f[MHz] 60 R1[Ω] 31.2 L1[mH] 3.75 C1[fF] 1.87 C0[pF] 0.92 C0 !MEASUREMENT CIRCUITS (1)Operating Current, Output Signal Symmetry, Output Signal Rise/Fall Time (CL=15pF) 1/2VDD H VDD L FOUT XTI XTO 0.1uF VSS 90% CL=15pF 50% 10% tr tf (2)Output Disable Time (CL=15pF,RL=1kΩ) XTI RL=1kΩ VDD FOUT CONT XTO Pulse Generator 0.1uF CONTV SS 0.2VDD TPOZ CL=15pF FOUT VOL 50Ω (3)Output Enable Time (CL=15pF) Pulse Generator XTI VDD CONT FOUT 0.8VDD XTO Pulse Generator CONTV SS 50Ω 0.1uF TPZO CL=15pF FOUT VOH 50Ω 2010/04/27 ( 6 / 7 ) NJU6214 Series ■2016 SIZE OSCILLATOR IMAGE DIAGRAM NJU6214 [CAUTION] The specifications on this data book are only given for information , without any guarantee as regards either mistakes or omissions. The application circuits in this data book are described only to show representative usages of the product and not intended for the guarantee or permission of any right including the industrial rights. 2010/04/27 ( 7 / 7 )