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| ICs for Mobile Communication AN6096FHN Transmission and reception IC for cellular telephone s Overview The AN6096FHN is a transmission and reception IC for a cellular telephone. It is encapsulated in the QFN package which is very thin and very small outline by using our exclusive process method. It integrates QPSK (Quadrature phase shift keying) modulator for transmission and an IF circuit for reception in a single chip. It contributes to realization of thinner and lighter equipment by adopting a very small package and designing a low power consumption circuit. A 5.20.2 5.00.1 19 20 13 (1.10) 3.00.2 4.00.1 13 19 Unit: mm 5 4.00.1 4.20.2 3.00.1 2.00.2 12 12 24 1 R0.3 7 8 0.80max. 0.50 , , 8 7 , ,, 20 24 1 0.20.1 (1.10) B M 3- C 0. 0.10 SAB Seating plane * Integrating an orthogonal modulation circuit for transmission and an IF circuit for reception on a single chip * Low power consumption by using an indirect modulation system in transmission block * Built-in APC circuit for transmission output adjustment * High input sensitivity by optimizing circuit in reception circuit * Built-in RSSI circuit of wide dynamic range in reception block 0.10 S 0.20.1 s Features S QFN024-P-0405 s Applications VCCMOD GNDOUT VCCOUT LMDEC2 LMDEC1 13 12 * Cellular telephone TXOUT s Block Diagram 19 18 17 16 15 LMIN Q-IN 20 IO IO 14 MXOUT Q-IN 21 IO 11 VCCMIX I-IN 22 RSSI 10 RXMXIN I-IN 23 9 RXLOIN APC/BS 24 IO 8 RSOUT 1 2 3 4 5 GNDMOD TXLO2 TXLO1 6 VCCLIM TXLO2R GNDRX LMOUT 7 1 AN6096FHN s Pin Descriptions Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 Symbol TXLO1 GNDMOD TXLO2 TXLO2R GNDRX LMOUT VCCLIM RSOUT RXLOIN RXMXIN VCCMIX MXOUT Description TX local 1-in GND TX-mod. TX local 2 TX local 2-ref. GND-RX Lim. out VCC lim. RSSI out RX local-in RX mix.-in VCC mix. Mix. out Pin No. 13 14 15 16 17 18 19 20 21 22 23 24 ICs for Mobile Communication Symbol LMDEC1 LMDEC2 LIMIN GNDOUT TXOUT VCCOUT VCCMOD Q-IN Q-IN I-IN I-IN APC / BS Description Lim. decouple 1 Lim. decouple 2 Lim. in GND TX-out TX-output VCC TX-out VCC TX-mod. Q input Q input I input I input APC / BS s Absolute Maximum Ratings Parameter Supply voltage Supply current Power dissipation *2 *1 Symbol VCC ICC PD Topr Tstg Rating 4.2 60 125 -30 to +80 -55 to +125 Unit V mA mW C C Operating ambient temperature Storage temperature *1 Note) *1: Except for the operating ambient temperature and storage temperature, all ratings are for Ta = 25C. *2: The power dissipation shown is for the independent IC without a heat sink at Ta = 80C. Refer to "s Application Notes". s Recommended Operating Range Parameter Supply voltage Symbol VCC Range 2.7 to 4.0 Unit V 2 ICs for Mobile Communication s Electrical Characteristics at Ta = 25C Parameter Consumption current (Transmission) Sleep current *1 Output level 1 *1 *1 AN6096FHN Symbol ICCTX Conditions Lo1 = 178 MHz, -25 dBm Lo2 = 1 619 MHz, -20 dBm VAPC = 2.3 V No signal, VAPC/BS = 0 V Lo1 = 178 MHz, -25 dBm Lo2 = 1 607 MHz, -20 dBm VAPC = 2.3 V Lo1 = 178 MHz, -25 dBm Lo2 = 1 631 MHz, -20 dBm VAPC = 2.3 V Lo1 = 178 MHz, -25 dBm Lo2 = 1 619 MHz, -20 dBm VAPC = 1.0 V No signal VM1 = 60 dB, SW1 = b Filter loss: except for -5.5 dB VM1 = 105 dB, SW1 = b Filter loss: except for -5.5 dB VL1 = 15 dB VL1 = 0 dB VL1 = 115 dB VS (VIS) = VS1 + 0.12 V DS = VS (VIS + 75 dB) - V(VIS) DS1 = 5{VS (VIS + 15 dB) - VS (VIS)}/ DS DS2 = 5{VS (VIS + 30 dB) - VS (VIS + 15 dB)}/ DS DS3 = 5{VS (VIS + 45 dB) - VS (VIS + 30 dB)}/ DS DS4 = 5{VS (VIS + 60 dB) - VS (VIS + 45 dB)}/ DS DS5 = 5{VS (VIS + 75 dB) - VS (VIS + 60 dB)}/ DS Min Typ 25 Max 33 Unit mA ISLTX PO1 -16 0 -13 10 A dBm Output level 2 *1 PO2 -16 -13 dBm Minimum output level *1 Pmin -50 -43 dBm Consumption current (Reception) *2 ICCRX Mix. conversion gain *2 21 101 80 3.2 23.5 107 85 1.25 0.23 2.6 1.8 1 1 1 1 1 4.5 26 90 1.60 0.6 2.91 2.19 1.25 1.25 1.25 1.25 1.25 mA dB dB dB V[p-p] V V V GMX VMX GLM *2 Mix. maximum output amplitude *2 Lim. voltage gain *2 Lim. maximum output amplitude RSSI output voltage 1 RSSI output voltage 2 *2 *2 *3 VLM VS1 VS2 DS DS1 DS2 DS3 DS4 DS5 VL1 = 80 dB, 400 kHz component 0.90 0 2.31 1.39 0.75 0.75 0.75 0.75 0.75 RSSI reference output inclination RSSI output inclination variation 1 *3 RSSI output inclination variation 2 *3 RSSI output inclination variation 3 *3 RSSI output inclination variation 4 *3 RSSI output inclination variation 5 *3 Note) *1: VCC = 3.0 V, IQ signal amplitude: 0.35 V[p-p] (single phase), DC bias: 1.6 V, /4 QPSK modulation wave Output frequency of PO1: 1 429.002 5 MHz, Output frequency of PO2: 1 453.002 5 MHz, Output frequency of Pmin: 1 441.002 5 MHz Lo input level is a setting value of signal source (output impedance 50 ). *2: VCC2 = 3.0 V, SW1 = a, VLO3 = 90 dB: f = 129.6 MHz, VM1: f = 130 MHz, VL1: f = 400 kHz (input level of pin 15 excluding the attenuation by matching circuit and filter.) VMX and VLM are measured in high impedance unless otherwise specified. Lo input level is a setting value of signal source (output impedance 50 ). *3: VIS is the input level of which the RSSI output voltage becomes VS1 + 0.12 V. 3 AN6096FHN s Electrical Characteristics at Ta = 25C (continued) * Design reference data ICs for Mobile Communication Note) The characteristics listed below are theoretical values based on the IC design and are not guaranteed. VCC1 = 3.0 V unless otherwise specified. Lo input level is a setting value of signal source (output impedance 50 ). Parameter Carrier leak suppression amount (fLO2 - fLO1) Symbol CL Conditions Lo1 = 178 MHz, -25 dBm Lo2 = 1 619 MHz, -20 dBm VAPC = 2.3 V IO: DC offset adjustment Lo1 = 178 MHz, -25 dBm Lo2 = 1 619 MHz, -20 dBm VAPC = 2.3 V, IO: level adjustment Lo1 = 178 MHz, -25 dBm Lo2 = 1 619 MHz, -20 dBm VAPC = 2.3 V Lo1 = 178 MHz, -25 dBm Lo2 = 1 619 MHz, -20 dBm VAPC = 2.3 V Lo1 = 178 MHz, -25 dBm Lo2 = 1 619 MHz, -20 dBm VAPC = 2.3 V Lo1 = 178 MHz, -25 dBm Lo2 = 1 619 MHz, -20 dBm VAPC = 2.3 V Lo1 = 178 MHz, -25 dBm Lo2 = 1 619 MHz, -20 dBm VAPC = 2.3 V Lo1 = 178 MHz, -25 dBm Lo2 = 1 619 MHz, -20 dBm VAPC = 1.0 V to 2.3 V Lo1 = 178 MHz, -25 dBm Lo2 = 1 619 MHz, -20 dBm VAPC = 1.0 V / 1.6 V Lo1 = 178 MHz, -25 dBm Lo2 = 1 607 MHz to 1 631 MHz, -20 dBm VAPC = 2.3 V Lo1 = 178 MHz, -25 dBm Lo2 = 1 619 MHz, -20 dBm VAPC = 2.3 V Min Typ -35 Max Unit dBc Image leak suppression amount IL -35 dBc Near spurious suppression amount Base band distortion suppression amount Adjacent channel leakage power suppression amount (30 kHz detuning) Adjacent channel leakage power suppression amount (50 kHz detuning) Adjacent channel leakage power suppression amount (100 kHz detuning) APC variable width DU -70 -65 dBc BD -40 dBc BL1 -45 -38 dBc BL2 -70 -60 dBc BL3 -65 dBc LAPC 30 37 dB APC output level control sensitivity SAPC 46 dB/V In-band output level deviation P -1.5 +1.5 dB Modulation precision EVM 2.0 %rms 4 ICs for Mobile Communication s Application Notes * PD Ta curves of QFN024-P-0405 PD T a 0.700 0.660 0.600 Mounted on the standard printed circuit board (Glass epoxy:50 x 50 x t0.8 mm3) Rth(j-a) = 151.5C/W AN6096FHN Power dissipation PD (W) 0.500 0.500 0.300 0.279 0.200 Independent IC without a heat sink Rth(j-a) = 357.4C/W 0.100 0 0 25 50 75 100 125 Ambient temperature Ta (C) * Main characteristics Note) Test conditions are the same as "s Electrical Characteristics" unless otherwise specified. The characteristics listed below are theoretical values based on the IC design and are not guaranteed. APC control voltage characteristics -10 -20 VCC = 3.0 V, Ta = -30C, 25C, 80C Lo1: 178 MHz -25 dBm Lo2: 1619 MHz -20 dBm I, Q: 0.35 V[p-p] PO (Single phase) 1.6 VDC , / 4 Using PN9-step continuous wave -30C 80C Mix. characteristics Adjacent channel leakage power suppression amount ACP 30 kHz, ACP 50 kHz (dBc) Proximity spurious suppression amount DU (dBc) 120 110 100 25C -30C 80C 0 Mix. output level (dBV) Output level PO (dBm) -30 -40 -50 -60 -70 -80 90 80 70 60 50 40 30 20 10 0 0 20 40 60 80 100 120 VCC = 3.0 V Ta = -30C, 25C, 80C Mix. in: 130 kHz Mix. out: 400 kHz Lo3 in: 129.6 MHz, 90 dBV -30 ACP 30 kHz 80C 25C -30C -30C, 25C ACP 50 kHz 80C Circuit off 25C 0 1 2 -30C DU 3 -40 -50 -60 -70 -80 -90 APC control voltage (V) Mix. input level (dBV) 5 AN6096FHN s Application Notes (continued) * Main characteristics (continued) ICs for Mobile Communication Note) Test conditions are the same as "s Electrical Characteristics" unless otherwise specified. The characteristic values below are theoretical values for designing and not guaranteed. Proximity spurious suppression 120 110 100 25C, 80C -30C 3.0 2.8 2.6 2.4 2.2 2.0 1.8 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0.0 -30C RSSI characteristics Lim. amp. output level (dBV) 80 70 60 50 40 30 20 10 0 0 20 40 60 80 100 120 VCC = 3.0 V Ta = -30C, 25C, 80C Lim. in: 400 kHz Lim. out: 400 kHz RSSI output voltage (V) 90 VCC = 3.0 V Ta = -30C, 25C, 80C Lim. in: 400 kHz Lim. out: 400 kHz 25C, 80C 20 40 60 80 100 120 0 Lim. amp. input level (dBV) Lim. amp. input level (dBV) s Application Circuit Example PO TXOUT 100 nF MIXOUT VMX 47 400 kHz filter VLI 2.0 k 100 nF a SW1 b 3.3 F VCC1 1 000 pF 1 000 pF 19 18 20 IO IO 17 100 pF 14 15 nF 13 15 nF 12 100 pF 1 000 pF 47 100 pF VMI 1 000 pF Lo3 IO Q 0.1 F Q 330 pF I 0.1 F I 330 pF 2 200 pF 21 16 15 11 10 22 RSSI 23 9 24 IO 8 1 2 3 4 5 10 pF 6 7 47 VAPC/BS Lo1 47 1.0 k 33 nF 1 000 pF 100 pF 1 000 pF VS RSSIOUT 4.7F VCC2 Matsushita Electronic Components EHF FD1623 100 pF Lo2 6 VLM LIMOUT |
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