TCC-106A-RT

TCC-106 Six-Output PTIC Control IC Introduction ON Semiconductor’s PTIC Controller IC is a six−output high−voltage digital to analog control IC specifically designed to control and bias ON Semiconductor’s Passive Tunable Integrated Circuits (PTICs). These tunable capacitive circuits are intended for use in mobile phones and dedicated RF tuning applications. The implementation of ON Semiconductor’s tunable circuits in mobile phones enables significant improvement in terms of antenna radiated performance. The tunable capacitors are controlled through a bias voltage ranging from 2 V to 20 V. The TCC−106 high−voltage PTIC control IC has been specifically designed to cover this need, providing six independent high−voltage outputs that control up to six different tunable PTICs in parallel. The device is fully controlled through a multi−protocol digital interface. www.onsemi.com RDL Ball Array CASE 567HL MARKING DIAGRAM Key Features • Controls ON Semiconductor’s PTIC Tunable Capacitors • Compliant with Timing Needs of Cellular and Other Wireless System TC6x ALYW Requirements • Integrated Boost Converter with 6 Programmable Outputs (up to 24 V) RDL • Low Power Consumption • Auto−detection of SPI (30− or 32−bit) or MIPI RFFE Interfaces (1.2 V or 1.8 V) • Available in WLCSP (RDL ball arrays) and for Stand−alone or • Module Integration This is a Pb−Free Device TC6 x A L Y W O = Product Code = MIPI ID = Assembly Location = Wafer Lot Code = Year Code = Week Code = Pin 1 Marker Typical Applications • Multi−band, Multi−standard, Advanced and Simple Mobile Phones • Tunable Antenna Matching Networks • Compatible with Closed−loop and Open−loop Antenna Tuner ORDERING INFORMATION See detailed ordering and shipping information in the package dimensions section on page 23 of this data sheet. Applications © Semiconductor Components Industries, LLC, 2015 September, 2015 − Rev. 5 1 Publication Order Number: TCC−106/D TCC−106 L_BOOST VHV GND_BOOST VREG Booster AVDD Regulator Bandgap vio_on GNDA VREG POR ibias_start/vref_start 4 bit DAC VIO POR VIO por_vreg Start Reference GNDIO Registers 8 7−bit DAC OUTA 8 7−bit DAC OUTB 8 7−bit DAC OUTC 8 7−bit DAC OUTD 8 7−bit DAC OUTE 8 7−bit DAC OUTF Interface Level Shifter TRIG IDB0 CS CLK OTP DATA ATEST Figure 1. Control IC Functional Block Diagram www.onsemi.com 2 VIO AVDD VREG VHV TCC−106 RDL Pin Out Table 1. PAD DESCRIPTIONS 1. 2. 3. 4. Bump Name Type Description Max Voltage (Note 1) RDL 1 L_BOOST AOH Boost Inductor 25 B4 2 AVDD P Analog Supply 5.5 B3 3 GNDA P Analog Ground 0 C3 4 TRIG DIO Trigger Signal Input (Note 2) VIO C4 5 CLK DI MIPI RFFE / SPI Clock VIO D4 6 CS DI Chip Select for SPI VIO D3 7 DATA DIO Digital IO (SPI and MIPI RFFE) VIO E4 8 VIO P Digital IO Supply 3 E3 9 IDB0 DI MIPI RFFE ID Bit 0 (Note 3) VIO C2 10 GNDIO P Digital IO Ground VIO D2 11 OUTA AOH High Voltage Output A VHV E2 12 OUTB AOH High Voltage Output B VHV E1 13 OUTC AOH High Voltage Output C VHV D1 14 OUTD AOH High Voltage Output D VHV C1 15 OUTE AOH High Voltage Output E VHV B1 16 OUTF AOH High Voltage Output F VHV A1 17 ATEST AO Analog Test Out (Note 4) VREG B2 18 VREG AO Regulator Output 3.6 A2 19 GND_BOOST P Ground for Booster 0 A3 20 VHV AOH / AIH Boost High Voltage can be Forced Externally 25 A4 For information only. To be grounded when not in use. This pin has to be connected to either GNDIO or VIO level, even if only SPI protocol is used. Never let it float. To be grounded in normal operation. Electrical Performance Specifications Table 2. ABSOLUTE MAXIMUM RATINGS Symbol Rating Unit Analog Supply Voltage −0.3 to +6.0 V VIO IO Reference Supply Voltage −0.3 to +3.6 V VI/O Input Voltage Logic Lines (DATA, CLK, CS) −0.3 to VIO+0.3 V −0.3 to 30 V 2,000 V 200 V −55 to +150 °C +110 °C AVDD VHVH Parameter VHV Maximum Voltage VESD (HBM) Human Body Model, JESD22−A114, All I/O VESD (MM) Machine Model, JESD22−A115 TSTG TAMB_OP_MAX Storage Temperature Max Operating Ambient Temperature without Damage Stresses exceeding those listed in the Maximum Ratings table may damage the device. If any of these limits are exceeded, device functionality should not be assumed, damage may occur and reliability may be affected. www.onsemi.com 3 TCC−106 Table 3. RECOMENDED OPERATING CONDITIONS Rating Symbol Parameter Min Typ Max Unit TAMB_OP Operating Ambient Temperature −30 − +85 °C TJ_OP Operating Junction Temperature −30 − +125 °C AVDD Analog Supply Voltage 2.3 − 5.5 V IO Reference Supply Voltage 1.1 − 3.0 V VIO Table 4. DC CHARACTERISTICS (TA = −30 to +85°C; VOUTX = 15 V for each output; 2.3 V