731 31 2MB
English Pages 48 Year 2019
MT6186M RF System Datasheet
Version:
0.2
Release date:
2019-01-18
Specifications are subject to change without notice.
© 2019 MediaTek Inc. This document contains information that is proprietary to MediaTek Inc. Unauthorized reproduction or disclosure of this information in whole or in part is strictly prohibited
MT6186M RF System Datasheet Confidential A
Document Revision History Revision
Date
Author
Description
0.1
2019-01-11
Ee Sze Khoo
Initial draft
0.2
2019-01-18
Johoo Lin
1. 2.
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Updated Chapter 5, TX specifications. Updated supported band table in 1.2.
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MT6186M RF System Datasheet Confidential A
Table of Contents Document Revision History .............................................................................................................................. 2 Table of Contents............................................................................................................................................. 3 1
Introduction .......................................................................................................................................... 5 1.1
Overview ........................................................................................................................................... 5
1.2
Key Features ...................................................................................................................................... 5
2
Block Diagram and Application Diagram ................................................................................................ 7
3
General Specifications ........................................................................................................................... 9
4
3.1
Packaging .......................................................................................................................................... 9
3.2
IC Marking ....................................................................................................................................... 10
3.3
RF I/O List ........................................................................................................................................ 11
3.4
Ball Assignment ............................................................................................................................... 13
3.5
Absolute Maximum Ratings ............................................................................................................ 14
3.6
Operating Conditions ...................................................................................................................... 15
3.7
BSI Speed ......................................................................................................................................... 16
Supply Specification ............................................................................................................................ 17 4.1
5
6
External Power Supplies and Interfaces .......................................................................................... 17
Transmitter ......................................................................................................................................... 18 5.1
TX Block Diagram............................................................................................................................. 18
5.2
4G FDD/TDD Transmitter Chain Performance Specification ........................................................... 21
5.3
4G FDD/TDD CCA Transmitter Chain Performance Specification.................................................... 24
5.4
3G FDD Transmitter Chain Performance Specification ................................................................... 25
5.5
3G TDD Transmitter Chain Performance Specification ................................................................... 26
5.6
3G C2K Transmitter Chain Performance Specification .................................................................... 27
5.7
2G Transmitter Chain Performance Specification ........................................................................... 28
5.8
Transmitter Power Control Specification ........................................................................................ 29
Receiver............................................................................................................................................... 30 6.1
6.2
6.3
6.4
6.5
TD-SCDMA Specification ................................................................................................................. 32 6.1.1
TD-SCDMA RX Specification .......................................................................................... 32
6.1.2
TD-SCDMA RX Specification (For eLNA Application) ..................................................... 32
GGE (2G GSM/GPRS/EDGE) Specification ....................................................................................... 33 6.2.1
GGE RX Specification ..................................................................................................... 33
6.2.2
GGE RX Specification (For eLNA Application) ................................................................ 33
CDMA Specification ......................................................................................................................... 34 6.3.1
CDMA RX Specification .................................................................................................. 34
6.3.2
CDMA RX Specification (For eLNA Application) ............................................................. 34
WCDMA Specification ..................................................................................................................... 36 6.4.1
WCDMA RX Specification .............................................................................................. 36
6.4.2
WCDMA RX Specification (For eLNA Application) ......................................................... 37
LTE Specification ............................................................................................................................. 39 6.5.1
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LTE RX Specification....................................................................................................... 39 © 2019 MediaTek Inc. This document contains information that is proprietary to MediaTek Inc.
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MT6186M RF System Datasheet Confidential A 6.5.2 7
8
LTE RX Specification (For eLNA Application) ................................................................. 41
Digital Control Interfaces ..................................................................................................................... 45 7.1
Introduction .................................................................................................................................... 45
7.2
Power-on Reset ............................................................................................................................... 46
7.3
BSI Interface .................................................................................................................................... 47
Reference Clock Specification .............................................................................................................. 48 8.1
Reference Input Buffer Specification (CLK26M) .............................................................................. 48
8.2
26MHz Clock Specification .............................................................................................................. 48
Lists of Figures Figure 2-1. RFSYS block diagram ............................................................................................................................. 7 Figure 3-1. Ball map .............................................................................................................................................. 13 Figure 5-1. TX block diagram (TX0) ....................................................................................................................... 19 Figure 6-1. RX block diagram ................................................................................................................................ 30
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MT6186M RF System Datasheet Confidential A
1
Introduction
1.1
Overview
MT6186M is a multi-mode multi-band highly integrated transceiver in 28nm CMOS. This document describes the performance targets for the RF stand-alone chip to be embedded in the overall platform.
1.2
Key Features Full multi-mode RF solution (C2K/GGE/WCDMA/TDSCDMA/LTE/LTE-CA) o
Multi-band LTE/WCDMA/TD-SCDMA/GGE/C2K
o
o
C2K/2G/3G/4G co-banding
o
Supports RxD (15 RxD ports)
o
Supports SRLTE
Direct conversion transmitter (LTE/3G/8-PSK) and DFM for GMSK
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MT6186M RF System Datasheet Confidential A
o
Dedicated power detection circuits for power control over specific power range
o
2LB+2MB+1HB/UHB TX0 output port
Hybrid Direct-Conversion (4G/3G/C2K)/Low-IF (GGE, DC-HSDPA) receiver o
15+15 Rx input ports
o
2+2 sets single ended RXIF IQ outputs.
Supports external LNA at RxP and RxD
Low supply current and operation directly from dual DC-DC converters
Supports RF Calibration features for key RX and TX specifications (image rejection, LO feed-through, IIP2, DC offset, RC corner)
Temperature measurement sub-system
LTE carrier aggregation (CA) o
Supports 1UL+2DL CA.
Supports RX 4*4 MIMO for MHB case
Supports LTE Power Class 2 high-power UE (HPUE) in band 41 up to 40MHz
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MT6186M RF System Datasheet Confidential A
2
Block Diagram and Application Diagram LAA/UHB(x2)
MHB(x8)
LB(x5)
HB/UHB
LB (x2)
MB (x2)
DET input TX0 (wi GSM supported)
DRX PRX
From TTG
I-I
LB
Driver
TX0 Driver
SRX0
RXP0/RXD0
MB
Driver
U/HB
TIA
TIA
SRX1
RXP1/RXD1
DET PATH LO
PGA
From SRX0
2
PGA
2
Controller DCO
STX-dig 2
4
2
STX0 2
Figure 2-1. RFSYS block diagram
RXIF IQ output loading model
MT6186M
D die
Rlay=150ohm
REVB=1ohm
OUT Clay+pkg=2pF
CEVB,Max =15pF
Clay+pkg=2pF
Radc
For the applications with bandwidth beyond LTE 30MHz, for example NC-CA, we highly recommend that the
PCB loa n band-edge and performance degradation. Inevitably, in some special cases, the PCB IQ traces may be longer and make PCB loading larger, and the value will be up to several tens of pF. In these cases, limited performance can only be achieved. For example, the maximal throughput will be degraded.
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MT6186M RF System Datasheet Confidential A PCB trace requirements of RX IF interface: 1. Capacitance loading < 15pF 2. Mismatch between capacitance of I path and Q path < 10% 3. The trace to trace isolation has been defined in system application note. Pay attention to the isolation between traces for required performance.
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MT6186M RF System Datasheet Confidential A
3 3.1
General Specifications Packaging
FCCSP is currently considered for this product.
Parameter Body size (width/length/height)
Single die 4.8*5.3*0.82mm
Ball spacing
0.35mm
Ball array
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17*19
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MT6186M RF System Datasheet Confidential A
3.2
IC Marking
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MT6186M RF System Datasheet Confidential A
3.3
RF I/O List Pin name
Category
RX RF I/O
RX BB I/O
Name
Description
I/O
Type
RX_PLB1
I
RF
2G, 3G, 4G, 2 NCCA, 619-960M
RX_PLB2
I
RF
2G, 3G, 4G, 2 NCCA, 619-960M
RX_PLB3
I
RF
2G, 3G, 4G, 2 NCCA, 619-960M
RX_PLB4
I
RF
2G, 3G, 4G, 2 NCCA, 619-960M
RX_PLB5
I
RF
2G, 3G, 4G, 2 NCCA, 619-960M
RX_DLB1
I
RF
2G, 3G, 4G, 2 NCCA, 619-960M
RX_DLB2
I
RF
2G, 3G, 4G, 2 NCCA, 619-960M
RX_DLB3
I
RF
2G, 3G, 4G, 2 NCCA, 619-960M
RX_DLB4
I
RF
2G, 3G, 4G, 2 NCCA, 619-960M
RX_DLB5
I
RF
2G, 3G, 4G, 2 NCCA, 619-960M
RX_PMHB1
I
RF
2G, 3G, 4G, 2 NCCA, 1550-2700M
RX_PMHB2
I
RF
2G, 3G, 4G, 2 NCCA, 1550-2700M
RX_PMHB3
I
RF
2G, 3G, 4G, 2 NCCA, 1550-2700M
RX_PMHB4
I
RF
2G, 3G, 4G, 2 NCCA, 1550-2700M
RX_PMHB5
I
RF
2G, 3G, 4G, 2 NCCA, 1550-2700M
RX_PMHB6
I
RF
2G, 3G, 4G, 2 NCCA, 1550-2700M
RX_PMHB7
I
RF
2G, 3G, 4G, 2 NCCA, 1550-2700M
RX_PMHB8
I
RF
2G, 3G, 4G, 2 NCCA, 1550-2700M
RX_DMHB1
I
RF
2G, 3G, 4G, 2 NCCA, 1550-2700M
RX_DMHB2
I
RF
2G, 3G, 4G, 2 NCCA, 1550-2700M
RX_DMHB3
I
RF
2G, 3G, 4G, 2 NCCA, 1550-2700M
RX_DMHB4
I
RF
2G, 3G, 4G, 2 NCCA, 1550-2700M
RX_DMHB5
I
RF
2G, 3G, 4G, 2 NCCA, 1550-2700M
RX_DMHB6
I
RF
2G, 3G, 4G, 2 NCCA, 1550-2700M
RX_DMHB7
I
RF
2G, 3G, 4G, 2 NCCA, 1550-2700M
RX_DMHB8
I
RF
2G, 3G, 4G, 2 NCCA, 1550-2700M
RX_PUHB1
I
RF
4G, 2 NCCA, 3400-3700M
RX_PUHB2
I
RF
4G, 2 NCCA, 3400-3700M
RX_DUHB1
I
RF
4G, 2 NCCA, 3400-3700M
RX_DUHB2
I
RF
4G, 2 NCCA, 3400-3700M
RX_PBBI1
O
BB
RX0 BBIQ
RX_PBBQ1
O
BB
RX0 BBIQ
RX_PBBI2
O
BB
RX1 BBIQ
RX_PBBQ2
O
BB
RX1 BBIQ
RX_DBBI1
O
BB
RX0 BBIQ
RX_DBBQ1
O
BB
RX0 BBIQ
RX_DBBI2
O
BB
RX1 BBIQ
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MT6186M RF System Datasheet Confidential A Pin name
Category
Name RX_DBBQ2
RX/SRX voltage supply
TX RF I/O
TX BB I/O
TX/STX voltage supply
BSI interface
Description
Type
O
BB
VDDL_RX_HF
VDD
VDD
1.2V RX supply
VDDL_RX_LF
VDD
VDD
1.2V RX supply
VDDL_RXSRX0_HF
VDD
VDD
1.2V RX/SRX supply
VDDL_RXSRX1_HF
VDD
VDD
1.2V RX/SRX supply
VDDL_SRX_LF
VDD
VDD
1.2V RX supply
VDDH_RX_HF
VDD
VDD
1.8V RX supply
VDDH_RXSRX
VDD
VDD
1.8V RX/SRX supply
VDDH_SRX
VDD
VDD
1.8V SRX supply
VDDH_TOP
VDD
VDD
1.8V TOP supply
TX0_LB1
O
RF
TX0 low band port #1
TX0_LB2
O
RF
TX0 low band port #1
TX0_MB1
O
RF
TX0 mid band port #1
TX0_MB2
O
RF
TX0 mid band port #2
TX0_HB1
O
RF
TX0 high band/ultra high band port #1
MRX0_RF
I
RF
TX measurement receiver (TX0) RF input
TX0_BBI_P
I
BB
TX modulator analog input TX0 I path (plus)
TX0_BBI_M
I
BB
TX modulator analog input TX0 I path (minus)
TX0_BBQ_P
I
BB
TX modulator analog input TX0 Q path (plus)
TX0_BBQ_M
I
BB
TX modulator analog input TX0 Q path (minus)
MRX_BBI
O
BB
TX measurement receiver BB output
MRX_BBQ
O
BB
TX measurement receiver BB output
VDDL_TX0_HF
VDD
VDD
1.2V TX supply (HF domain)
VDDL_TX0_LF
VDD
VDD
1.2V STX supply (LF domain)
VDDL_STX_HF
VDD
VDD
1.2V STX supply (HF domain)
VDDH_TX0_HF
RX1 BBIQ
VDD
VDD
1.8V TX supply
EN_BB
I
GPIO
RF/BB & RF/26MHz interface enable
BSI_EN
I
GPIO
BSI enable
BSI_CK
I
GPIO
BSI clock
BSI_DATA0
I/O
GPIO
BSI data
BSI_DATA1
I/O
GPIO
BSI data
I
CLK
26MHz clock input
RCAL
I/O
DC
Connect to external accurate resistor
GND
GND
GND
CLK26M CLK & others
I/O
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Ground
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MT6186M RF System Datasheet Confidential A
3.4
Ball Assignment
Figure 3-1. Ball map
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MT6186M RF System Datasheet Confidential A
3.5
Absolute Maximum Ratings Parameter
Conditions
Min.
Max.
Unit
Supply VRF18
-0.3
2.0
V
Supply VRF12
-0.3
1.26
V
125
ºC
Junction temperature
ESD protection
Notes
HBM - Analog and digital I/O
≧1000V
V
HBM - RF I/O
≧1000V
V
MRX0_RF, RX inputs, TX outputs
FICDM - Analog and digital I/O
±250
V
Target - no current corporate requirement
FICDM - RF I/O
±250
V
MRX0_RF, RX inputs, TX outputs target - no current corporate requirement
Notes: 1. TX output: No DC should be applied under any circumstances (AC coupling required for those PA’s with DC at the input). Parameter
Maximal input power
RX input balls
10 dBm
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Notes
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MT6186M RF System Datasheet Confidential A
3.6
Operating Conditions
Within the operating range the IC operates as per the functional description. Parameter
Conditions
Min.
Nom.
Max.
Unit
Supply VRF18
1.75
1.81
2
V
Supply VRF12
1.18
1.2
1.26
V
Receiver front-end RX input frequency range
See the receiver section for detailed frequency ranges.
Transmitter TX frequency range
See the transmitter section for detailed frequency ranges.
TX O/P VSWR
All Phases ZL = 50Ω
2:1
Note 1 The supportable ambient temperature range will depend on the thermal impedance of the package used and the exact operational state as well as the end application thermal design (housing, PCB, etc.). Operation/Test condition
PCB temperature (°C)
TTC
+25°
ETC
-30° to +85°
Note 2 The input clock requirement specified is defined to meet the receiver and transmitter phase noise requirements, e.g. IC EVM specification. Certain connectivity requirements may require better specifications than this.
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MT6186M RF System Datasheet Confidential A
3.7
BSI Speed
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MT6186M RF System Datasheet Confidential A
4
Supply Specification
4.1
External Power Supplies and Interfaces
The RFSYS macro operates from two power supplies. Supply name
Usage
Regulator type
Output voltage
VRF18
LDO supply (from system DCDC) for all major sub- systems, interface and register retention
Linear with ripple
1.81V
VRF12
LDO supply (from system DCDC) for all major sub- systems
Linear with ripple
1.2V
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MT6186M RF System Datasheet Confidential A
5
Transmitter
All transmitter characteristics are listed in this section. Typical specifications are for mid-band channel frequency, and under typical operating conditions, the minimum and maximum specifications are for extreme operating voltage, temperature, and VSWR 2:1 conditions.
5.1
TX Block Diagram
MT6186M contains single transmitter, as depicted in Figure 5-1.
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MT6186M RF System Datasheet Confidential A HB/UHB
LB (x2)
MB (x2)
DET input TX0 (wi GSM supported)
From TTG
I-I Driver
LB
Driver
MB
TIA
TIA
Driver
U/HB
DET PATH LO
PGA
From SRX0
2
PGA
2
Controller DCO
STX-dig 2
4
2
STX0 2
Figure 5-1. TX block diagram (TX0)
The transmitter consists of three optimized signal paths: low-band, mid-band and high-band/ultra high-band (LB, MB, and HB/UHB). The three paths share a common analog base-band active low-pass filter and a common passive RC low-pass filter. After that, I/Q base-band signals are up-converted by one of the three mixers and
amplified the RF driver (PGA). The differential rted to single-ended using a by balun. Finally
utput switch. The the single-ended TX signals single at the output of the three signal paths are also connected together to a shared detector path (MRX) used for internal calibration.
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MT6186M RF System Datasheet Confidential A The detector path also has an external single-ended RF input for high-accuracy antenna power-control measurements and digital pre-distortion (DPD). Each signal path (LB, MB, and HB/UHB) as well as the MRX path has its corresponding LO distribution circuitry. The LO distribution is optimized for low power consumption. For TDD bands the LO signal comes from the SRX. For all other modes the LO signal comes from the local STX.
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MT6186M RF System Datasheet Confidential A
5.2
4G FDD/TDD Transmitter Chain Performance Specification Parameter
Symbol
Min.
Typ.
Max.
Unit
-6
dB
Test conditions
4G FDD/TDD single component carrier transmitter output Output return loss
S22
Max. output power, LB’s Bands 5, 18, 19, 26, 27 Band 8 Bands 12, 17 Band 13 Bands 14, 20 Band 28 Band 71
Pmax
Max. output power, MB’s Bands 1, 65 Bands 2, 25 Bands 3, 9 Bands 4, 66 Bands 34, 39 Bands: 11, 21
Pmax
2.3 3.7 2.2 4 2.8 2.4 1.8 3.1 3.2 2.7 1.6 2.4 3.5
Max. output power, HB/UHB’s Band 7 Band 30 Bands 38, 41 Band 40 Bands 42, 48
Pmax
Min. output power
Pmin
RF frequency response droop
∆TF
1.0
EUTRA adjacent channel leakage ratio
E-ACLR1
-43
UTRA1 adjacent channel leakage ratio
U-ACLR1
UTRA2 adjacent channel leakage ratio
2.8 2 3.2 3.0 3.2 -66
50Ω load
dBm
1) Pmax: ACLR < Spec 2) Pout exceeds Pmax by > 3.0dB in Typ. conditions
dBm
1) Pmax: ACLR < Spec 2) Pout exceeds Pmax by > 3.0dB in Typ. cond.
dBm
1) Pmax: ACLR < Spec 2) Pout exceeds Pmax by > 2.0dB in Typ. cond.
dBm
With 12dB digital back-off
dB
±CBW/2 offset
-40
dB
Including B41 HPUE
-46
-41
dB
Including B41 HPUE
U-ACLR2
-49
-45
dB
Including B41 HPUE
EVMRMS
2.0 3.8
3.3 4.9
%
Post-calibration
Carrier leakage Pmax ≥ Pout ≥ -20dBm -20dBm > Pout ≥ -50dBm -50dBm > Pout ≥
CL
-45 -36
-35 -31
dBc
Post-calibration
Image rejection ratio Pmax ≥ Pout ≥ -50dBm -50dBm > Pout ≥ -60dBm
IRR
-45 -39
-37 -34
dBc
Post-calibration
RMS error vector magnitude Pmax ≥ Pout ≥ -20dBm -20dBm > Pout ≥ -60dBm
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MT6186M RF System Datasheet Confidential A Parameter
Symbol
3rd counter-intermodulation, LB’s Bands 5, 8, 12, 17, 19, 20, 27, 28, 71 Band 13 Band 14 Band 18 Band 26 3rd counter-intermodulation, MB’s Bands 2, 3, 4, 9, 11, 21, 25, 34, 39, 66
Min.
Typ.
CIM3
CIM5
Band 27
5th counter-intermodulation, MB’s Bands 2, 3, 4, 9, 11, 21, 25, 34, 39, 66
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NRX
dBc/1MHz dBc/1MHz dBc/1MHz dBc/1MHz dBc/1MHz dBc/1MHz
-63.5 -66.5 -64.5 -59.0
dBc/1MHz dBc/1MHz dBc/1MHz dBc/1MHz
-60.5 -57.0 -63.0 -64.0 -66.0
CIM5
Noise in RX band, LB’s Bands 5, 12, 14, 17, 26, 27, 28, 71 Bands 8, Bands 13 19 PoutBands = -1.7 18, dBm Band 20
-49.0 -47.0 -52.0 -53.0 -47.0 -53.0
Pout = Pmax - AMPR, any RB
Pout = Pmax - AMPR, any RB
-57 dBc/1MHz Pout = Pmax - AMPR, any -68.0 dBc/300kHz RB -62.0 dBc/1MHz
CIM5
Bands 1, 65 Band 33 5th counter-intermodulation, HB/UHB’s Bands 7 Band 30, 40, 41 Band 38 (AMPR = 4dB) Band 42 (AMPR = 3dB) Band 48 (AMPR = 1dB)
Test conditions
-46.0 dBc/1MHz Pout = Pmax - AMPR, any -61.0 dBc/300kHz RB -51.0 dBc/1MHz
CIM3
CIM3
5th counter-intermodulation, LB’s Bands 5, 8, 12, 14, 17, 19, 20, 28, 71 Band 13, 26 Band 18
Unit
-46.5 dBc/1MHz -67 dBc/6.25kHz Pout = Pmax - AMPR, any -47.5 dBc/6.25kHz RB -54.5 dBc/1MHz -80.0 dBc/6.25kHz
Bands 1, 65 (AMPR 5dB) Band 33 3rd counter-intermodulation, HB/UHB’s Bands 7, 40 Band 30 (AMPR = 4dB) Band 38 (AMPR = 4dB) Band 41 Band 42 (AMPR = 3dB) Band 48 (AMPR = 1dB)
Max.
-153 -156 -155
dBc/1MHz dBc/1MHz dBc/1MHz dBc/1MHz dBc/1MHz
dBc/Hz
-151
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Pout = Pmax - AMPR, any RB
Pout = -1.6 dBm Pout = -1.2 dBm Pout = -0.3 dBm Pout = -1.1 dBm
Page 22 of 48
MT6186M RF System Datasheet Confidential A Parameter
Symbol
Noise in RX band, MB’s Bands 1, 4, 65, 66 Bands 2, 9, 25 Band 3 Bands 11, 21
NRX
Noise in RX band, HB’s Band 7, 30
NRX
Noise in GPS/GNSS band Any TX band
NGPS
Noise in FM band Any TX band
NFM
2nd TX harmonic suppression
H2
Min.
Typ.
Max.
-158 -156 -154 -155 -155
Unit
dBc/Hz
dBc/Hz
Test conditions Pout = -0.8 dBm Pout = -1.6 dBm Pout = -1.6 dBm Pout = -3.4 dBm Pout = -1.1 dBm
dBc/Hz
Pout = Pmax – 4dB
-150
dBc/Hz
Pout = Pmax – 4dB
-40
dBc
Any Pout
dBc
Any Pout
dBc
Any Pout
-156
rd
3 TX harmonic suppression LB’s MB’s HB’s and UHB’s
H3
≥ 4th TX harmonic suppression
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HX, x ≥4
-46 -40 -30 -50
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MT6186M RF System Datasheet Confidential A
5.3
4G FDD/TDD CCA Transmitter Chain Performance Specification
This section introduces a few additional specifications relative to intra-band TX carrier aggregation. MT6186 supports all UL intra-band CA cases currently defined in 3GPP: CA_5B, CA_8B CA_1C, CA_3C, CA_7C, CA_38C, CA_39C, CA_40C, CA_41C, CA_42C CA_4A_4A CA_40D Parameter
Symbol Min.
Typ.
Max.
Unit
Test conditions
4G FDD/TDD Carrier Aggregation (CA) Transmitter Output 3rd counter-intermodulation CA_5B, CA_8B CA_3C CA_1C (AMPR 2dB) CA_39C (AMPR 5dB) CA_7C (AMPR 4dB) CA_38C (AMPR 5dB) CA_40C, CA_40D, CA_41C CA_42C (AMPR 12dB)
-46.5 -46.0 -64.0 -60.0 -56.7 -60.0 -49.0 -53.0
CIM3
5th counter-intermodulation CA_5B, CA_8B CA_1C, CA_3C, CA_7C, CA_38C CA_39C (AMPR 4dB) CA_40C, CA_40D, CA_41C CA_42C (AMPR 4dB)
-63.5 -57 -63.0 -60 -63
CIM5
dBc/1MHz dBc/1MHz dBc/300kHz dBc/1MHz Pout = Pmax-AMPR, any RB dBc/1MHz dBc/1MHz dBc/1MHz dBc/1MHz dBc/1MHz dBc/1MHz dBc/1MHz dBc/1MHz dBc/1MHz
Pout = Pmax-AMPR, any RB
Noise emissions (TX Band 39) Frequency offset > 50MHz
NTX
-133
dBm/Hz
Pout = 2.4dBm
Noise emissions (TX Band 40) Frequency offset > 57MHz
NTX
-147
dBm/Hz
Pout = 3 dBm
Noise emissions (TX Band 41) Frequency offset > 54MHz
NTX
-142
dBm/Hz
Pout = 3 dBm
LO + 2BB baseband harmonic Band 39 Band 40 Band 41
H+2BB
LO - 2BB baseband harmonic Band 39 Band 40 Band 41
H-2BB
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-55 -51 -53 -63 -62 -61
dBm
Pout = 2.4 dBm
dBm
Pout = 2.4 dBm
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Page 24 of 48
MT6186M RF System Datasheet Confidential A
5.4
3G FDD Transmitter Chain Performance Specification Parameter
Symbol
Min.
Typ.
Max.
Unit
-6
dB
Test conditions
3G FDD (WCDMA) transmitter output Output return loss
S22
Max. output power, LB’s Bands 5, 6, 19 Band 8
Pmax
50Ω load
dBm
1) Pmax: ACLR < Spec 2) Pout exceeds Pmax by > 4.0dB in Typ. conditions
dBm
1) Pmax: ACLR < Spec 2) Pout exceeds Pmax by > 4.0dB in Typ. conditions
-74
dBm
With 12dB digital back-off
0.3 1.2
Max. output power, MB’s Bands 1, 2, 3, 4, 9 Band 11
Pmax
Min. output power
Pmin
RF frequency response droop
∆TF
0.2
0.5
dB
±CBW/2 offset
Adjacent channel leakage ratio
ACLR1
-46
-42
dBc
Pout = Pmax
2 adjacent channel leakage ratio
ACLR2
-58
-52
dBc
Pout = Pmax
RMS error vector magnitude Pmax ≥ Pout ≥ -40dB Pout = Pmin
EVMRMS
2.0 12.0
3.5 17.0
%
Post-calibration
Carrier leakage Pmax ≥ Pout ≥ -40dBm -40dBm > Pout ≥ Pmin
CL
-45 -36
-35 -31
dBc
Post-calibration
Image rejection ratio
IRR
-45
-37
dBc
Post-calibration Pout > -40dBm
Noise in RX band, LB’s Band 5 Band 6 Band 8 Band 19
NRX
nd
Noise in RX band, MB’s Band 1 Band 2 Band 3 Band 4 Band 11
NRX
Noise in GPS/GNSS band Band 5, Band 8 Band 1, Band 2
2.2 0.6
-153 -153 -156 -154
dBc/Hz Pout = -1.9dBm
-158 -156 -154 -158 -156
Pout = -0.3dBm Pout = -1dBm dBc/Hz Pout = -0.3dBm Pout = -0.3dBm Pout = -2.7dBm
NGPS
-156 -156
dBc/Hz Pout = -1.9dBm Pout = -0.3dBm
Noise in DCS band Band 1
NDCS
-155
dBc/Hz Pout = -0.3dBm
Noise in FM band Any TX band
N
-150
dBc/Hz Pout = Pmax – 4dB
TX harmonic suppression
HX
-40
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Any harmonic, any Pout
Page 25 of 48
MT6186M RF System Datasheet Confidential A
5.5
3G TDD Transmitter Chain Performance Specification Parameter
Symbol
Min.
Typ.
Max.
Unit
-6
dB
Test conditions
3G TDD (TD-SCDMA) transmitter output Output return loss
S22
Max. output power Bands 34, 39
Pmax
Min. output power
Pmin
RF frequency response droop
∆TF
0.2
Adjacent channel leakage ratio
ACLR1
-46
2 adjacent channel leakage ratio
ACLR2
RMS error vector magnitude
2.4 -73
50Ω load
dBm
1) Pmax: ACLR < Spec 2) Pout exceeds Pmax by > 3dB in Typ. conditions
dBm
With 12dB digital back-off
dB
±CBW/2 offset
-42
dB
Pout = Pmax
-58
-52
dB
Pout = Pmax
EVMRMS
2.0
3.5
%
Post-calibration Pout > -40dBm
Carrier leakage Pmax ≥ Pout ≥ -40dBm -40dBm > Pout ≥ Pmin
CL
-45 -36
-35 -31
dBc
Post-calibration
Image rejection ratio
IRR
-45
-37
dBc
Post-calibration Pout > -40dBm
Noise emissions (TX Band 34) Into B39, 1880MHz < f < 1920MHz
NB39
-153
dBc/Hz Pout = -2dBm
Noise emissions (TX Band 39) Into B34, 2010MHz < f < 2025MHz
NB34
-153
dBc/Hz Pout = -2dBm
HX
-40
nd
TX harmonic suppression
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Any harmonic, any Pout
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MT6186M RF System Datasheet Confidential A
5.6
3G C2K Transmitter Chain Performance Specification Parameter
Symbol
Min.
Typ.
Max.
Unit
-6
dB
Test conditions
3G C2K transmitter output Output return loss
S22
Max. output power, LB’s BC0 (Band 5) BC10 (Band 26)
Pmax
2.7 2.7
Max. output power, MB’s BC1 (Band 2) BC4 (Band 3) BC6 (Band 1) BC14 (Band 25) BC15 (Band 4)
Pmax
Min. output power
Pmin
RF frequency response droop
∆TF
0.2
Spurious emissions at |Δf|:1.25~1.98MHz in 30kHz BW at |Δf|:1.98~4MHz in 30kHz BW
SEM
-54 -63
-51 -60
2.0 2.5 6.0
3.5 4.0 8.5
RMS error vector magnitude Pmax ≥ Pout ≥ Pmax-25dB Pout = Pmax-25dB Pout = Pmin
EVMRMS
3.5 2.5 1.6 3.5 2.5 -74
50Ωload
dBm
1) Pmax: SEM < Spec 2) Pout exceeds Pmax by > 3.0dB in Typ. conditions
dBm
1) Pmax: SEM < Spec 2) Pout at highest TX gain exceeds Pmax by >3.0dB in Typ. conditions
dBm
With 12dB digital back-off
dB
±CBW/2 offset
dBc
Pout = Pmax
%
Post-calibration
Carrier suppression Pmax ≥ Pout ≥ -40dBm -40dBm > Pout ≥ Pmin
CL
-45 -36
-35 -31
dBc
Post-calibration
Sideband suppression
IRR
-45
-37
dBc
Post-calibration Pout > -40dBm
Noise in RX band, LB’s BC0, BC10
NRX
Noise in RX band, MB’s BC1, BC14 BC4 BC6 BC15
NRX
Noise in GPS/GNSS band BC0 BC1
-153
dBc/Hz
Pout = -1.6dBm
-156 -156 -158 -158
Pout = 0.3dBm dBc/Hz Pout = 0.3 dBm Pout = -0.5dBm Pout = 0.3 dBm
NGPS
-157 -157
dBc/Hz Pout = -1.6dBm Pout = 0.3dBm
Noise in DCS band BC6
NDCS
-142
dBc/Hz Pout = -0.5dBm
Noise in FM band BC0 BC1
NFM
-150
dBc/Hz Pout = -1.6dBm Pout = 0.3dBm
TX harmonic suppression
HX
-40
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dBc
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Any harmonic, any Pout
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MT6186M RF System Datasheet Confidential A
5.7
2G Transmitter Chain Performance Specification Parameter
Symbol
Min.
Typ.
Max.
Unit
Test conditions
2G transmitter output Output return loss (GMSK) (EDGE)
S22
-6 -10
dB
50Ωload
Max. output power (GMSK) LB bands MB bands
Pmax
3.0 3.0
dBm
50Ωload
dBm
1) Pmax: ORFS < Spec 2) Pout at highest TX gain exceeds Pmax by > 4.0dB in Typ. cond.
Max. output power (8PSK) LB bands MB bands
Pmax
Min. output power (8PSK) Any band
Pmin
0.3 -1.3 -40
dBm
ORFS 400kHz (GMSK) LB bands MB bands
ORFS400k
-66 -66
-64 -63
dBc
ORFS 400kHz (8PSK) LB bands MB bands
ORFS400k
-65 -64
-61 -60
dBc
Modulation accuracy (GMSK) RMS phase error, LB PEAK phase error, LB RMS phase error, MB PEAK phase error, MB
PERMS PEPeak PERMS PEPeak
0.8 1.5 1.0 2.0
Modulation accuracy (8PSK) RMS phase error, LB PEAK phase error, LB RMS phase error, MB PEAK phase error, MB
EVMRMS EVMPeak EVMRMS EVMPeak
1.5 5.0 2.0 6.0
Origin offset suppression (8PSK)
OOS
-40
Noise emissions (GMSK) 32MHz offset, LB 32MHz offset, MB
NGMSK
-166 -159
-164 -157
dBc/Hz
Noise emissions (8PSK) 32MHz offset, LB 32MHz offset, MB
NEDGE
-161 -155
-159 -153
dBc/Hz
HX
-25
TX harmonic suppression (8PSK) Pout
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deg
%
Post-calibration
dB
dBc
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Pout ≥ -2.5dBm Pout ≥ -4.5dBm Any harmonic, any
Page 28 of 48
MT6186M RF System Datasheet Confidential A
5.8
Transmitter Power Control Specification Parameter
Symbol
Min.
RF input frequency
Fdet
663
Input return loss LB, MB, HB bands UHB bands
S11
Max. input signal
Pdet,max
Min. input signal
Pdet,min
Typ.
Max.
Unit
3700
MHz
Test conditions
Power detector
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-10 -10
dB 10
-40
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Ref. impedance 50
dBm dBm
Page 29 of 48
MT6186M RF System Datasheet Confidential A
6
Receiver
MT6186M receiver (RX) supports the modes of GGE, WCDMA (including SC-HSPA, DC-HSPA, and 3C-HSPA), TDSCDMA, and LTE-A (including inter-band, intra-band contiguous, intra-band non-contiguous CA and MIMO). All LNAs are single-ended structure and partitioned into three different groups for LB, MHB, UHB. As shown in the RX block diagram, the first group is configured to receive LB signals with 10 (5P+5D) identical LNAs and to down-convert LNA output signal by RX0/RX1 path. The second group plans to process MHB signals with 16 (8P+8D) identical LNAs and RX0/RX1 paths. For UHB, the third group plans to process with four (2P+2D) identical LNAs and RX0/RX1 paths. TX0
SRX0 RXP0/RXD0
SRX1 RXP1/RXD1
LAA/UHB(x2)
MHB(x8)
LB(x5)
DRX PRX
Figure 6-1. RX block diagram
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MT6186M RF System Datasheet Confidential A In order to enhance 2-path NCCA isolation, total six isolation buffers (ISOBUF) are placed in front of MHB and MHB (MIMO) mixer. For LB, it only has isolation buffers on RX0 (P/D). Whether to turn on ISOBUF depends on the isolation by band and by path on spur concern. The RF output signals of LB/MHB/UHB LNA groups are down converted by quadrature direct-down-conversion mixers/RX synthesizers/programmable dividers. For spur concern, LO path is programmable to maximize flexibility on RX0/RX1 path selection. Each of BB paths, between mixer and ADC, includes a Current-Mode LPF, TIA, TPD, Bi-Quadratic LPF and D2S. The Bi-Quadratic LPF is controlled by the modem to adjust RX DC offset in background. Moreover, RX IQ calibration is supported and works by injecting an offset frequency test tone from test-tone generator (TTG buffers) (not shown in the diagram). Since single-ended duplexer has worse TX-to-RX isolation, IIP2 calibration is required and important. During IIP2 calibration, two test tones coming from TX are injected into RX CAL paths through TX detection path, band selection MUX (not shown in the diagram) and RX IIP2 calibration buffer. The mechanism of IIP2 calibration is to adjust the differential switch gate bias voltage in the mixer. Basically, RXD configuration is similar to RXP. The detailed receiver performance is summarized as the following.
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MT6186M RF System Datasheet Confidential A
6.1
TD-SCDMA Specification
6.1.1
TD-SCDMA RX Specification Parameter
Conditions
Min.
Single-ended input impedance Single-ended input return loss
[Note1]
Input frequency
All bands
Max.
Unit
50
Ω
-10
dB
1880
2400
MHz
Max: LNA G6; TIA UHG; filter gain = 15dB
58.5
dB
Min: LNA G1; TIA LG; filter gain = 0dB
1.5
dB
LNA high mid gain; source VSWR < 1.2
12
dB
LNA mid low gain; source VSWR < 1.2
18
dB
IF corner frequency
[Note 2]
1.5
MHz
Noise figure
Max. gain
2.5
Input IP3
±3.2MHz and ±6MHz offset. LNA G6, TIA LG, filter gain = 15dB, -46dBm per tone
-14
-11
dBm
Input IP2
±4.8MHz and ±4.9MHz LNA G6, TIA LG, filter gain = 15dB, -49dBm per tone
25
30
dBm
Voltage gain LNA gain step
6.1.2
3.5
dB
TD-SCDMA RX Specification (For eLNA Application) Parameter
Conditions
Min.
Single-ended input impedance Single-ended input return loss
[Note1]
Input frequency
All bands
Nom.
Max.
Unit
50
Ω
-10
dB
1880
2400
MHz
Max: LNA G6; TIA HG; filter gain = 9dB
46.5
dB
Min: LNA G1; TIA LG; filter gain = 0dB
1.5
dB
LNA G6 LNA G4
12
dB
LNA G4 LNA G3
6
dB
LNA G3 LNA G1
12
dB
IF corner frequency
[Note 2]
1.5
MHz
Noise figure
Max. gain
2.5
Voltage gain
LNA gain step
0.1
Nom.
3.1 Input IP Input IP2
±3.2MHz and ±6MHz offset. LNA G3, TIA HG, ±4.8MHz and ±4.9MHz LNA G3, TIA HG, filter gain = 12dB, -32dBm per tone
3.5
dB dBm
42
47
dBm
Note 1: Source/Reference impedance: 50Ω. Note 2: After RC calibration
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G,
MT6186M RF System Datasheet Confidential A
6.2
GGE (2G GSM/GPRS/EDGE) Specification
6.2.1
GGE RX Specification Parameter
Conditions
Min.
Single-ended input impedance Single-ended input return loss
[Note 1]
Input frequency
All bands
Max.
Unit
50
Ω
-10
dB
869
1990
MHz
Max: LNA G6; TIA UHG; filter gain = 15dB
58.5
dB
Min: LNA G1; TIA LG; filter gain = 0dB,
1.5
dB
LNA high mid gain; source VSWR < 1.2
6
dB
LNA mid low gain; source VSWR < 1.2
24
dB
IF corner frequency
[Note 2]
1
MHz
Noise figure
Max. gain
2.5
IIP3
±0.8MHz and ±1.6MHz offset; LNA G6, TIA LG, filter gain = 15dB, -49dBm per tone
-13.5
-10.5
dBm
IIP2
±5.94MHz and ±6.06MHz offset; LNA G6, TIA LG, filter gain = 15dB, -31dBm per tone
30
35
dBm
Min.
Nom.
Voltage gain LNA gain step
6.2.2
3.5
dB
GGE RX Specification (For eLNA Application) Parameter
Conditions
Single-ended input impedance Single-ended input return loss
[Note 1]
Input frequency
All bands
Max.
Unit
50
Ω
-10
dB
869
1990
MHz
Max: LNA G6; TIA HG; filter gain = 6dB
43.5
dB
Min: LNA G2; TIA LG; filter gain = 0dB,
7.5
dB
LNA G6 LNA G4
12
dB
LNA G4 LNA G3
6
dB
LNA G3 LNA G2
6
dB
IF corner frequency
[Note 2]
1
MHz
Noise figure
Max. gain
2.5
Voltage gain
LNA gain step
0
Nom.
3 IIP3 IIP2
3.5
dB dBm
±5.94MHz and ±6.06MHz offset; LNA G3, TIA HG, gilter gain = 12dB, -14dBm per tone
47
52
dBm
Note 1: Source/Reference impedance: 50Ω. Note 2: After RC calibration MediaTek Confidential
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)
MT6186M RF System Datasheet Confidential A
6.3
CDMA Specification
6.3.1
CDMA RX Specification Parameter
Conditions
Min
Single-ended input impedance Single-ended input return loss
[Note 1]
Input frequency
For all bands
Nom
Max
Unit
50
Ω
-10
dB
851
2170
MHz
Max: LNA G6; TIA HG and filter gain = 15dB
52.5
dB
Min: LNA G1; TIA HG and filter gain = 0dB
7.5
dB
LNA G6 G5
6
dB
LNA G5 G4
6
dB
LNA G4 G3
6
dB
LNA G3 G2
6
dB
LNA G2 G1
6
dB
TIA gain step
TIA UHG HG
6
dB
LPF gain step
Range from 0 dB to 15 dB, 3dB per step
3
IF corner frequency
[Note 2]
Voltage gain
LNA gain step
1.5
MHz
Test condition 1 (LNA = G6, TIA = HG, LPF = 15dB) [Sen] Noise figure
[Notes 1]
2.5
3.5
dB
IIP2
At TX offset
55
dBm
Voltage gain
LNA G6; TIA HG and LPF = 15dB.
52.5
dB
5
dB
Test condition 2 (LNA = G6, TIA = HG, LPF = 6dB) [ACS1] Noise figure
[Notes 1]
IIP3
±1.2MHz and ±1.26MHz offset; LNA = G6, TIA = HG, LPF = 6dB; -52dBm per tone
-11
dBm
Voltage gain
LNA = G6, TIA = HG, LPF = 6dB
43.5
dB
Test condition 3 (LNA = G5, TIA = HG, LPF = 3dB) [STD, single-tone Desen] Noise figure
[Notes 1]
11
dB
IIP3
-45dBm at ±1.1MHz, Tx1 = Tx2 = -26dBm; LNA = G5, TIA = HG, LPF = 3dB
-7
dBm
Voltage gain
LNA = G5, TIA = HG, LPF = 3dB
34.5
dB
6.3.2 Parameter
Conditions
Min
Single-ended input impedance
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Max
Unit Ω
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MT6186M RF System Datasheet Confidential A Parameter
Conditions
Single-ended input return loss
[Note 1]
Input frequency
For all bands
Min
Nom
Max
-10 851
Unit dB
2170
MHz
Max : LNA G3; TIA UHG and filter gain = 15dB
40.5
dB
Min: LNA G2; TIA HG and filter gain = 0dB
13.5
dB
LNA G6 G5
6
dB
LNA G5 G4
6
dB
LNA G4 G3
6
dB
LNA G3 G2
6
dB
TIA gain step
TIA UHG HG
6
dB
LPF gain step
Range from 0 dB to 15 dB, 3dB per step
3
dB
IF corner frequency
[Note 2]
1.5
MHz
Voltage gain
LNA gain step
Test condition 1 (LNA = G3, TIA = HG, LPF = 15dB) [Sen] Noise figure
[Notes 1]
10
12
dB
IIP2
At TX offset
73
dBm
Voltage gain
LNA G3; TIA HG and LPF = 15dB
34.5
dB
22.5
dB
Test condition 2 (LNA = G2, TIA = HG, LPF = 12dB) [ACS1] Noise figure
[Notes 1]
IIP3
±1.2MHz and ±1.26MHz offset; LNA = G2, TIA = HG, LPF = 12dB; -35dBm per tone
4.1
dBm
Voltage gain
LNA = G2, TIA = HG, LPF = 12dB
25.5
dB
6
dB
Test condition 3 (LNA = G6, TIA = HG, LPF = 3dB) [STD, Single-Tone Desen] Noise figure
[Notes 1]
IIP3
-45dBm at ±1.1MHz, Tx1 = Tx2 = -26dBm; LNA = G6, TIA = HG, LPF = 3dB
-10
dBm
Voltage gain
LNA = G6, TIA = HG, LPF = 3dB
40.5
dB
Note 1: Source/Reference impedance: 50Ω Note 2: After RC calibration
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MT6186M RF System Datasheet Confidential A
6.4
WCDMA Specification
6.4.1
WCDMA RX Specification Parameter
Conditions
Min.
Single-ended input impedance Single-ended input return loss
[Note 1]
Input frequency
For all bands
Voltage gain
LNA gain step
Nom.
Max.
Unit
50
Ω
-10
dB
869
2170
MHz
Max: LNA G6; TIA HG and filter gain = 15dB
52.5
dB
Min: LNA G1; TIA HG and filter gain = 0dB
7.5
dB
LNA G6 G5
6
dB
LNA G5 G4
6
dB
LNA G4 G3
6
dB
LNA G3 G2
6
dB
LNA G2 G1
6
dB
TIA gain step
Fixed TIA at HG
LPF gain step
Range from 0 dB to 15 dB, 3dB per step
3
dB
IF corner frequency
[Note 2]
3
MHz
Test condition 1 (LNA = G6, TIA = HG, LPF = 15dB) [Sen] Noise figure
[Notes 1]
2.5
3.5
dB
IIP2
At TX offset
55
dBm
Voltage gain
LNA G6, TIA HG and LPF = 15dB.
52.5
dB
Test condition 2 (LNA = G6, TIA = HG, LPF = 12dB) [ACS1] Noise figure
[Notes 1]
2.8
dB
IIP3
±4.5MHz and ±5.5MHz offset; LNA = G6, TIA = HG, LPF = 12dB; -52dBm per tone
-17
dBm
Voltage gain
LNA G6, TIA HG and LPF = 12dB.
49.5
dB
Test condition 3 (LNA = G6, TIA = HG, LPF = 9dB) [NBB] Noise figure
[Notes 1]
3.1
dB
IIP3
-57dBm at ±1.1MHz and Tx1 = Tx2 =-26dBm; LNA = G6, TIA = HG, LPF = 9dB
-11
dBm
Voltage gain
LNA = G6, TIA = HG and LPF = 9dB.
46.5
dB
Test condition 4 (LNA = G3, TIA = HG, LPF = 3dB) [ACS2] Noise figure
[Notes 1]
21
dB
IIP3
±4.5MHz and ±5.5MHz offset; LNA = G3, TIA = HG, LPF = 3dB; -25dBm per tone
2
dBm
Voltage gain
LNA = G3, TIA = HG, LPF = 3dB
22.5
dB
31
dB
Test condition 5 (LNA = G2, TIA = HG, LPF = 0dB) [maximum input] Noise figure
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[Notes 1]
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MT6186M RF System Datasheet Confidential A Parameter Voltage gain
6.4.2
Conditions
Min.
LNA = G2, TIA = HG, LPF = 0dB
Nom.
Max.
13.5
Unit dB
WCDMA RX Specification (For eLNA Application) Parameter
Conditions
Min.
Single-ended input impedance Single-ended input return loss
[Note 1]
Input frequency
For all bands
Voltage gain
LNA gain step
Nom.
Max.
Unit
50
Ω
-10
dB
869
2170
MHz
Max: LNA G3; TIA HG and filter gain = 15dB
34.5
dB
Min: LNA G2; TIA HG and filter gain = 0dB
13.5
dB
LNA G6 G5
6
dB
LNA G5 G4
6
dB
LNA G4 G3
6
dB
LNA G3 G2
6
dB
TIA gain step
Fixed TIA at HG
LPF gain step
Range from 0 dB to 15 dB, 3dB per step
3
dB
IF corner frequency
[Note 2]
3
MHz
Test condition 1 (LNA = G3, TIA = HG, LPF = 15dB) [Sen] Noise figure
[Notes 1]
10
12
dB
IIP2
At TX offset
73
dBm
Voltage gain
LNA G3, TIA HG and LPF = 15dB.
34.5
dB
Test condition 2 (LNA = G3, TIA = HG, LPF = 15dB) [ACS1] Noise figure
[Notes 1]
10
dB
IIP3
±4.5MHz and ±5.5MHz offset; LNA = G3, TIA = HG, LPF = 15dB; -35dBm per tone
-1.5
dBm
Voltage gain
LNA G3, TIA HG and LPF = 15dB.
34.5
dB
Test condition 3 (LNA = G6, TIA = HG, LPF = 6dB) [NBB] Noise figure
[Notes 1]
3.5
dB
IIP3
-57dBm at ±1.1MHz and Tx1 = Tx2 =-26dBm; LNA = G6, TIA = HG, LPF = 9dB
-10
dBm
Voltage gain
LNA = G6, TIA = HG and LPF = 6dB.
46.5
dB
Test condition 4 (LNA = G4, TIA = HG, LPF = 3dB) [ACS2] Noise figure
[Notes 1]
14
dB
IIP3
±4.5MHz and ±5.5MHz offset; LNA = G4, TIA = HG, LPF = 3dB; -25dBm per tone
-2.8
dBm
Voltage gain
LNA = G4, TIA = HG, LPF = 3dB
28.5
dB
Test condition 5 (LNA = G2, TIA = HG, LPF = 0dB) [maximum input]
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Page 37 of 48
MT6186M RF System Datasheet Confidential A Parameter
Conditions
Noise figure
[Notes 1]
Voltage gain
LNA = G2, TIA = HG, LPF = 0dB
Min.
Nom.
Max.
Unit
31
dB
13.5
dB
Note 1: Source/Reference impedance: 50Ω Note 2: After RC calibration
MediaTek Confidential
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Page 38 of 48
MT6186M RF System Datasheet Confidential A
6.5
LTE Specification
6.5.1
LTE RX Specification
Non/inter-band/intra-band contiguous CA scenario Parameter
Conditions
Min.
Single-ended input impedance Single-ended input return loss
[Note 1]
Input frequency
For all bands
Voltage gain
LNA gain step
Max.
Unit
50
Ω
-10
dB
619
5925
MHz
Max: LNA = G6, TIA = HG and LPF = 15dB.
52.5
dB
Min: LNA = G1, TIA = HG and LPF =0dB.
7.5
dB
LNA G6 G5
6
dB
LNA G5 G4
6
dB
LNA G4 G3
6
dB
LNA G3 G2
6
dB
LNA G2 G1
6
dB
TIA gain step
Fix TIA at HG
LPF gain step
Range from 0dB to 15dB, 3dB per step
dB 3
dB
1.5
MHz
BW = 3MHz mode
3
MHz
BW = 5MHz mode
3
MHz
BW = 10MHz mode
5
MHz
BW = 15MHz mode
7.5
MHz
BW = 20MHz mode
10
MHz
BW = 30MHz mode
18
MHz
BW = 40MHz mode
21
MHz
BW = 50MHz mode
27
MHz
BW = 60MHz mode
33
MHz
BW = 1.4MHz mode
IF corner frequency [Note2]
Nom.
Test condition 1 (LNA = G6, TIA = HG, LPF = 15dB) [Sen] Frequency < 2300MHz
2.4
3.4
dB
2300MHz < frequency < 2700MHz
2.6
3.6
dB
3200MHz < frequency < 3800MHz
3
4.2
dB
5150MHz < frequency < 5925MHz
4
5.5
dB
IIP2
At TX offset, frequency < 2700MHz
55
dBm
Voltage gain
LNA = G6, TIA = HG, LPF = 15dB
52.5
dB
3
dB
Noise figure
Test condition 2 (LNA = G6, TIA = HG, LPF = 15dB) [ACS1] Noise figure
MediaTek Confidential
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Page 39 of 48
MT6186M RF System Datasheet Confidential A Parameter
Conditions
Min.
Nom.
Max.
Unit
IIP3
±4.5MHz and ±5.5MHz offset; LNA = G6, TIA = HG, LPF = 15dB, -54dBm per tone
-24
dBm
Voltage gain
LNA = G6, TIA = HG, LPF = 15dB
52.5
dB
13.5
dB
Test condition 3 (LNA = G6, TIA = HG, LPF = 6dB) [NBB] Noise figure IIP3
-55dBm at ±2.7MHz, Tx1 = Tx2 = -26dBm; LNA = G6, TIA = HG, LPF = 6dB
-11
dBm
Voltage gain
LNA = G6, TIA = HG, LPF = 6dB
43.5
dB
20
dB
Test condition 4 (LNA = G3, TIA = HG, LPF = 3dB) [ACS2] Noise figure IIP3
±4.5MHz and ±5.5MHz offset; -25dBm per tone; LNA = G3, TIA = HG, LPF = 3dB
2.2
dBm
Voltage gain
LNA = G3, TIA = HG, LPF = 3dB
22.5
dB
Test condition 5 (LNA = G1, TIA = HG, LPF = 0dB) [maximum input] Noise figure
[Notes 1]
35
dB
Voltage gain
LNA = G1, TIA = HG, LPF = 0dB
7.5
dB
Intra-band non-contiguous CA scenario Parameter
Conditions
Min.
Single-ended input impedance Single-ended input return loss
[Note 1]
Input frequency
B1, B2, B3, B4, B5, B7, B8, B11, B12, B13, B25, B40 B41, B42, B46, B48, B66
Voltage gain
LNA gain step
Nom. 50
Ω
-10
dB
720
5925
dB
Min: LNA = G1, TIA = HG and LPF = 0dB
7.5
dB
LNA G6 G5
6
dB
LNA G5 G4
6
dB
LNA G4 G3
6
dB
LNA G3 G2
6
dB
LNA G2 G1
6
dB
LPF gain step
Range from 0dB to 15dB, 3dB per step
dB
BW = 1.4MHz mode
3
dB
1.5
MHz
BW = 3MHz mode
MediaTek Confidential
MHz
52.5
Fix TIA at HG
IF corner frequency [Note2]
Unit
Max: LNA = G6, TIA = HG and LPF = 15dB
TIA gain step
3
Max.
MHz
BW = 5MHz mode
3
MHz
BW = 10MHz mode
5
MHz
BW = 15MHz mode
7.5
MHz
BW = 20MHz mode
10
MHz
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Page 40 of 48
MT6186M RF System Datasheet Confidential A Parameter
Conditions
Min.
Nom.
Max.
Unit
BW = 30MHz mode
18
MHz
BW = 40MHz mode
21
MHz
BW = 50MHz mode
27
MHz
BW = 60MHz mode
33
MHz
Test condition 1 (LNA = G6, TIA = HG, LPF = 15dB) [Sen] Frequency < 2300MHz
2.7
3.6
dB
2300MHz < frequency