NJM2232AM-TE1

NJM2232A FM IF WITH LOG AMPLIFIER ■ GENERAL DESCRIPTION The NJM2232A is high precision FM IF IC with log amplifier, designed to be used for handy type wireless apparatus. The NJM2232A includes in one chip of IC, at each block, the mixer, local oscillator, limitter amplifier, log amplifier, FM detector, and so on, with which set up the IF block of handy type wireless apparatus that requires high precision electronic detection. ■ FEATURES ● RSSI features are excellent Linearity Dynamic Range Temperature ● Low power dissipation (VCC=6V) ● Operating voltage ● Package Outline ● Bipolar Technology ■ PACKAGE OUTLINE NJM2232AM ±1dB 90dB ±2dB 5.2mA typ. 5 to 9V DMP24 ■ RECOMMENDED OPERATIONAL CONDITION 5.0 to 9.0V ● Operating Voltage V+ ■ APPLICATION ● Automobile telephone ● Codeless telephone ● MCA ● Celler Radio ● Business Wireless apparatus ● Various measuring units ■ BLOCK DIAGRAM NJM2232AM Ver.2003-12-09 -1- NJM2232A ■ TERMINAL EXPLANATION PIN SYMBOL 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 VCC IF IN GND EXT. C1 EXT. C2 DEC 1 FILT IN DEC 2 EXT.C3 AGND IF OUT AVCC RSSI CVCC QUAD IN CGND AF OUT DEC 3 BGND MIX IN OSC 2 OSC 1 BVCC MiX OUT Function Supply Voltage Input of IF-AMP 1, RSSI and Reference IF-AMP1 ( Limitter Amp.) Signal Input Ground of IF-AMP 1, RSSI and Reference Capacitor Connection Terminal 1 (Limitter Amp. AC Decoupling) Capacitor Connection Terminal 2 (Limitter Amp. AC Decoupling) Reference Decoupling Capacitor 1 Filter Input between IF-AMP 1 and IF-AMP 2 Reference Decoupling Capacitor 2 Capacitor Connection Terminal 3 (Limitter Amp. AC Decoupling) Ground of IF-AMP 2, and RSSI IF-AMP 2 (Limitter Amp.) Signal Output Supply Voltage Input of IF-AMP 2 and RSSI RSSI Input FM-DISCRI Supply Voltage Input Quadrature Detector Input FM-DISCRI Ground Audio Signal Output Reference Decoupling Capacitor 3 Mixer Ground Mixer Signal Input Crystal Oscillator Terminal 2 Crystal Oscillator Terminal 1 Mixer Supply Voltage Input Mixer Signal Output ■ ABSOLUTE MAXIMUM RATINGS PARAMETER (Ta=25°C) SYMBOL + RATINGS UNIT Supply Voltage V 12 V Power Dissipation PD 700 mW Operating Temperature Range Topr -20 to +75 °C Storage Temperature Range Tstg -40 to +125 °C (V+=6V, Ta=25°C±2°C) ■ ELECTRICAL CHARACTERISTICS PARAMETER SYMBOL TEST CONDITION MIN. TYP. MAX. UNIT Operating Current ICC 11, 21, 22pin, no loading 5.2 8.5 mA Mixer Voltage Gain GMIX fIN=90MHz, -40dBm 18 20 22 dB RSSI Output Voltage (1) VL1 fIN=455kHz, -90dBm 0.135 0.405 V RSSI Output Voltage (2) VL2 fIN=455kHz, -80dBm 0.41 0.71 V RSSI Output Voltage (3) VL3 fIN=455kHz, 0dBm 2.56 2.94 V RSSI Linearity VLIN (Note 1) -1 0 1 dB RSSI Dynamic Range DR (Note 1) 90 dB IF Output Voltage VIF fIN=455kHz, -50dBm 1.2 1.4 1.6 V Audio Output Voltage VOUT Standard Modulation Signal (Note 2) 150 200 250 mV Total Harmonic Distortion THD Standard Modulation Signal (Note 2) 1 % S / N Ratio S/N Standard Modulation Signal (Note 2) 40 dB AMRR AMR Standard Modulation Signal (Note 3) 30 dB (Note 1) RSSI Linearity has 10 measuring points (-90, -80 to 0dBm) from where getting the ideal linearity by way of mini square method, and that each 10 measured spots should stay on within the range of ±1dB that can be obtained during the process of the measurement. Also in the process of the measurement, RSSI dynamic range 90dB can be obtained at the same time. (Note 2) fIN=455kHz, -20dBm, fMOD=1kHz, fDEV=3kHz (Note 3) fIN=455kHz, -20dBm, fMOD=1kHz, AM 30%MOD -2- Ver.2003-12-09 NJM2232A ■ TEST CIRCUIT Ver.2003-12-09 -3- NJM2232A ■ TERMINAL EXPLANATION (1) Supply Voltage The supply voltage is to be delivered at each block, such as limitter Amplifier block ((1), (12) pin), Mixer bolck (23) pin, FM Discrimination block (14) pin and so on. When applying the voltage, proceed it supplying from the latter bolck to front in order of the block structure. When the mixer block and FM block are not required the IC is not operation, no functioning as long as the power supply is off. NJM2232A ‹Supply Voltage› (2) Mixer Input Mixer input impedance (20) pin is designed to be set at 1.5kΩ (standard) on voltage. It is advisable to input after DC cutting for desired matched circuit. (3) Oscillator As far as the local oscillator ionput goes, there are 2 methods as shown below. 1. Input after setting the crystal oscillating circuit, on (21), (22) pins. 2. Connect (21) pin directly on supply voltage, and then input the external local oscillator output directly to pin 22. ‹Oscillator› (4) Filter (to be used between Mixer and Limitter Amp.) Mixer output impedance (24) pin is 2kΩ (standard), Limitter Amp. Impedance (2) pin is 18kΩ (standard) are desired. Input harmonizing to the filter to be used for adequate matched circuit. (5) Limitter Amp. Input Limitter amp. impedance is designed to be 18kΩ (standard). Be sure to input after DC cutting. ‹Limitter Amp. Input› (6) Decoupling Capacitance (4), (5), (9) pins capacitor are AC decoupling capacitor, Which are set as a part of amplifier feed back circuit of Limmitter amp. block. Please apply about 0.1µF capacitance. (7) Reference Capacitor (6), (8), (18) pins capacitor are AC decoupling capacitor which are to be connected to the internal reference. Please apply 0.1µF capacitance. -4- ‹Decoupling Capacitor› Ver.2003-12-09 NJM2232A (8) Limitter Amp. Inter Section Filter The limitter amp, the inter section filter is composed of the resonator applied with the tuning coil as in the drawing. Upon designing the RSSI linearity, it is advisable to apply the resonator coil with no loading Q=55, L=680µH condition, and so proceed DC cutting before the coil. ‹Inter Section Filter› (9) Limitter Amplifier As shown in the drawing, the limitter amp. is the open emitter, and the limitter amp. output can be obtained by putting adequate resistor to pin (11). ‹Limitter Amp. Output› (10) Quadrature Detecting phase Shifter In order to detect quadrature, input the signal that has shifted the phase for 90 degree from pin (15) to RLC paralleled resonator. The resistor value should be decided to obtain the desired audio output. ‹Phase Shifter› (11) RSSI detecting current shall be shifted from current into voltage by the internal resistor 32kΩ, And at the same time, please put the external capacitor value to be able to stay constantly for the desired time. ‹RSSI Output› Ver.2003-12-09 -5- NJM2232A ■ TYPICAL APPLICATION -6- Ver.2003-12-09 NJM2232A ■ TYPICAL CHARACTERISTICS Mixer Voltage Gain vs. Frequency Mixer Voltage Gain vs. Local Input Level RSSI Characteristics vs. Mixer Input RSSI Output Voltage vs. Temperature [CAUTION] The specifications on this databook are only given for information , without any guarantee as regards either mistakes or omissions. The application circuits in this databook 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. Ver.2003-12-09 -7-