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
很抱歉,暂时无法提供与“TCC-106A-RT”相匹配的价格&库存,您可以联系我们找货
免费人工找货