Texas Instruments Chipset TRF2436EVM User manual

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Software licenses/upgrades
Type
User manual

This manual is also suitable for

Texas Instruments Chipset TRF2436EVM: The TRF2436EVM is a platform for evaluating the TRF2436 high-power, dual-band RF front-end under various signals, reference, and supply conditions. Use this document with the EVM schematic diagram supplied.

Using the TRF2436EVM, you will be able to rapidly evaluate the TRF2436 with a minimum of manual setup. The board comes with easy-to-use factory-set configurations so you can get started right away.

Here are some of the features and use cases for the TRF2436EVM:

  • Signal generation: The EVM can be used to generate signals for testing the TRF2436. This includes generating LO signals, IF signals, and RF signals.

Texas Instruments Chipset TRF2436EVM: The TRF2436EVM is a platform for evaluating the TRF2436 high-power, dual-band RF front-end under various signals, reference, and supply conditions. Use this document with the EVM schematic diagram supplied.

Using the TRF2436EVM, you will be able to rapidly evaluate the TRF2436 with a minimum of manual setup. The board comes with easy-to-use factory-set configurations so you can get started right away.

Here are some of the features and use cases for the TRF2436EVM:

  • Signal generation: The EVM can be used to generate signals for testing the TRF2436. This includes generating LO signals, IF signals, and RF signals.
1 Introduction
1.1 Purpose
1.2 System Requirements
1.3 Power Requirements
User's Guide
SLWU038 August 2006
TRF2436EVM
This user’s guide provides an overview of the TRF2436 evaluation module (EVM) to
get you started using the TRF2436EVM right away. It also provides a general
description of the features and functions to be considered when using this module.
Contents
1 Introduction .......................................................................................... 1
2 TRF2436EVM Operational Procedure ........................................................... 2
3 Physical Description ................................................................................ 3
List of Figures
1 Top Layer 1 .......................................................................................... 4
2 Ground Plane Layer 2.............................................................................. 4
3 Power Plane Layer 3 ............................................................................... 5
4 Bottom Layer 4 ...................................................................................... 5
List of Tables
1 TRF2436EVM PARTS LIST ....................................................................... 6
The TRF2436 EVM provides a platform for evaluating the TRF2436 high-power, dual-band RF front-end
under various signals, reference, and supply conditions. Use this document with the EVM schematic
diagram supplied. Using the TRF2436EVM, you can rapidly evaluate the TRF2436 with a minimum of
manual setup.
Use the following equipment when evaluating the TRF2436EVM:
+3.3-V power supply, 800 mA.
Signal generator: Agilent ESG Series (with baseband I/Q modulation option for modulated testing) or
equivalent.
Spectrum analyzer: Agilent PSA Series (with phase noise option) or equivalent.
Vector signal analyzer: Agilent 89600 Series for 802.16x modulated EVM testing or equivalent.
The demonstration board requires only one supply for proper operation. Connect +3.3 V at P1 and the
return to P2. Always terminate active PA outputs before enabling the power supply.
Voltage Limits
Exceeding the maximum input voltages can damage EVM components. Undervoltage can cause improper
operation of some or all of the EVM components.
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1.4 Hardware Configuration
2 TRF2436EVM Operational Procedure
2.1 TX Operation
TRF2436EVM Operational Procedure
The TRF2436EVM can be set up in a variety of configurations to accommodate a specific mode of
operation. Before starting an evaluation, decide on the configuration and make the appropriate
connections or changes. The demonstration board comes with the following factory-set configuration:
Jumper J10 installed between 1-2
Jumper J11 installed between 2-3
Jumper J12 installed between 1-2
Jumper J13 installed between 1-2
Jumper J14 installed between 1-2
LO input drive
The TRF2436 has been designed to be driven with a differential LO input. A simple balun centered at ~2.6
GHz can be used to convert a single-ended input from an RF source to a differential pair to provide a
differential LO to the EVM through SMA connectors J3 and J4.
The 2436 will function if driven single-ended, but it is not designed to operate in this condition, nor has it
been evaluated in this condition. To drive the LO single-ended, connect an RF source to the LOP SMA
(J3) and terminate the LON SMA (J4) input with 50 .
Filtering
The TRF2436EVM is provided with no filtering. The mixer output, PA input/LNA output, and RF
input/output pins are brought out directly to SMA connectors on the EVM. Filtering may be incorporated
by:
Connecting an external filter to RFANTA (J6) for filtering after the PA in TX mode or before the LNA in
RX mode.
Connecting an external filter between the MFA (J8) and RFA (J9) jacks for filtering between the mixer
and PA/LNA stages
1. Connect +3.3 V to P1 and ground to P2 but do not turn on.
2. Connect differential LO source to LOP/LON jacks (or use external balun).
Set the appropriate frequency and power level between 0 to +4 dBm. Remember that for A-band
operation, the LO input frequency is doubled inside the TRF2436; so, the LO should be set to half the
frequency desired at the mixer LO port.
3. Connect an IF source to the IF port. Set to 374 MHz with a typical power level of –20 dBm.
4. Set ABSEL (J12) to a logic high 1.
5. Set TR (J13) to a logic high 1.
6. Set PA_B SEL (J11) to a logic low 0.
7. Set PA_A SEL (J10) to logic high 1.
8. RXDGC = don’t care
9. For mixer stage measurement:
a. Terminate RFA (J9) and RFANTA (J6) into 50 .
b. Connect a spectrum analyzer to MFA (J8).
c. Turn on the 3.3-V power supply (~300 mA to 320 mA).
d. Observe the output of the mixer stage on a spectrum analyzer.
10. For PA stage measurement:
a. Terminate IF (J7) and MFA (J8) into 50 .
b. Apply an RF to RFA (J9).
c. Connect a spectrum analyzer to RFANTA (J6).
d. Turn on the power supply.
e. Observe the PA output on a spectrum analyzer.
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2.2 RX Operation
3 Physical Description
Physical Description
1. Set TR (J13) to logic 0.
2. Set PA_A SEL (J10) to logic 0.
3. Connect a differential LO source to the LOP/LON SMAs (or use an external balun).
Set the LO to an appropriate frequency, with the power level between 0 to +4 dBm. Remember that for
A-band operation, the LO input frequency is doubled inside the TRF2436; so, the LO should be set to
half the frequency desired at the mixer LO port.
4. For mixer stage measurement:
a. Terminate RFA (J9) and RFANTA (J6) into 50 .
b. Connect an RF source to MFA (J8). Set to a desired RF frequency and typical power level
of –20 dBm.
c. Connect a spectrum analyzer to the IF (J7) output.
d. Turn on the 3.3-V power supply (~90 mA).
e. Observe the IF output on a spectrum analyzer (374 MHz).
5. For LNA stage measurement:
a. Terminate IF (J7) and MFA (J8) into 50 .
b. Connect an RF source to RFANTA (J6). Set to a desired frequency and typical power
level of –40 dBm.
c. Connect a spectrum analyzer to RFA (J9).
d. Turn on the power supply.
e. Observe the LNA output on a spectrum analyzer.
f. Use jumper J14 (RXDGC) to select between LNA high (pins 2-3) and low gain (pins 1-2)
modes.
This section describes the physical characteristics and PCB layout of the EVM and lists the components
used on the module.
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3.1 PCB Layout
Physical Description
The EVM is constructed on a 4-layer, 3.6-inch × 3.6-inch, 0.042-inch thick PCB using Polycad 370
Turbo/HR material. Figure 1 through Figure 4 show the PCB layout for the EVM.
Figure 1. Top Layer 1
Figure 2. Ground Plane Layer 2
4 TRF2436EVM SLWU038 August 2006
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Physical Description
Figure 3. Power Plane Layer 3
Figure 4. Bottom Layer 4
SLWU038 August 2006 TRF2436EVM 5
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3.2 Part List
3.3 Schemtic Drawing
Physical Description
Table 1 lists the parts used in constructing the EVM.
Table 1. TRF2436EVM PARTS LIST
QTY Ref Value Part Number Note
1 C1 470pF GRM033R71C471KD
1 C2 10pF GRM1555C1H100JZ
1 C3 5600pF C0402C562K3RACT
7 C4 C6 C11 C15 C17 C24 0.01 µ F GRM155R71E103KA
C33
12 C5 C9 C12–C14 C16 C19 100pF GRM1555C1H101JD
C20 C22 C25 C26 C31
3 C7 C8 C18 10 µ F ECJ-4YB1A106K
3 C10 C23 C29 1000pF GRM155R71H102KA
2 C21 C32 1.2pF 04025A1R2BAT2A
1 C28 0.1 µ F ECJ-0EB1A104K
2 FL1 FL2 Filter, 2400–2484MHz DFCB22G44LBJAA DNI
2 FL3 FL4 Filter, 5597.5MHz DFCB35G59LAHAA DNI
1 FL5 Filter Block, DC power BNX002-01
9 J1–J9 MXB SMA 142-0701-841
5 J10–J14 PA_A SEL 54201-S08-3
4 L1 R3 R4 R31 DNI
3 L2 L3 L7 27 at 100MHz EXC-ML16A270U
4 L6 L8 L10 L12 120 at 100MHz BLM15AG102SN1D
2 L9 L11 33nH LQW15AN33NJ00D
1 P1 +3.3V_IN ST-351A
1 P2 PSG ST-351B
2 Q1 Q3 IRLML6401 IRLML6401
2 Q2 Q4 MMST2222A MMST2222A-7
8 R1 R2 R6 R7 R35–R38 TRACE GAP, NO PART DNI
1 R5 634 ERJ-2RKF6340X
9 R8–R13 R15 R32 R33 10K ERJ-2GEJ103X
7 R16–R18 R24 R25 R28 1K ERJ-2GEJ102X
R29
4 R20–R23 200 ERJ-2RKF2000X
1 R26 750 ERJ-2GEJ751X
1 R27 2K POT 3214W-1-202E
1 R30 5.1K ERJ-2GEJ512X
1 T1 ADT4-1T ADT4-1T
6 TP1–TP6 T POINT R 5015
1 U1 TRF2436 TRF2436
2 U2 U3 MMDT3906 MMDT3906-7
1 U4 MMDT3904 MMDT3904-7
The schematic drawing for the TRF2436EVM appears on the following page.
6 TRF2436EVM SLWU038 August 2006
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5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
IF_SMA
IFP
IFN
LOP
LON
BCOUT
BYPOUT
RFANTB
DETN
DETP
RFANTA
MXB_SMA
RFB_SMA
RFB
RFA_SMA
MXA_SMA
FANTA_SFANTA
FANTB_SFANTB
MXA RFA
MXB
VDD
VDD
BCIN
BCIN
V+PA3B
V+LNABA
V+IF
V+IFP
V+IFN
V+PA1A
V+GEN
V+PA2A
V+PA3A
PABCA
V+PA1B
V+PA2B
PABCB
RXDGC
TR
LOADJB
LOADJA
ABSEL
Title
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TRF2436 Evaluation Module
B
13Monday, April 17, 2006
Title
Size Document Number Rev
Date: Sheet of
TRF2436EVM-SCH
A
TRF2436 Evaluation Module
B
13Monday, April 17, 2006
Title
Size Document Number Rev
Date: Sheet of
TRF2436EVM-SCH
A
TRF2436 Evaluation Module
B
13Monday, April 17, 2006
50 OHM
50 OHM
100 OHM
100 OHM
50 OHM
50 OHM
50 OHM
50 OHM
50 OHM
50 OHM
50 OHM
L. NGUYEN
Engineer:
M. ARNOLD
Drawn By:
R36
TRACE GAP, NO PART
R36
TRACE GAP, NO PART
12
FL4
Filter, 5597.5MHz
DNI
DFCB35G59LAHAA_DNI
FL4
Filter, 5597.5MHz
DNI
DFCB35G59LAHAA_DNI
IN
1
OUT
2
J1
MXB SMA
J1
MXB SMA
1 2
3
R4
DNI
R4
DNI
1 2
J5
RFANTB SMA
J5
RFANTB SMA
1 2
3
L1
DNI
L1
DNI
C1
470pF
C1
470pF
12
C16
100pF
C16
100pF
1 2
U1
TRF 2436
U1
TRF 2436
MXB
1
ABSEL
2
V+LOB
3
LOADJA
4
LOP
5
LON
6
IFP
7
IFN
8
MXA
9
L+LOA
10
V+IF
11
V+IFP
12
V+IFN
13
RFA
14
V+PA1A
15
V+GEN
16
V+PA2A
17
PABCA
18
V+PA3A
19
BCOUT
20
BYPIN
21
BYPOUT
22
GND1
23
GND2
24
RFANTA
25
V+LNABA
26
RFANTB
27
DETN
28
DETP
29
V+PA3B
30
V+PA2B
31
BCIN
32
PABCB
33
V+PA1B
34
RSVD1
35
RFB
36
RXDGC
37
TR
38
LOADJB
39
TXGADJB
40
BACK
41
R37
TRACE GAP, NO PART
R37
TRACE GAP, NO PART
12
TP2TP2
1
TP1TP1
1
C15
.01uF
C15
.01uF
1 2
R2
TRACE GAP, NO PART
R2
TRACE GAP, NO PART
12
FL1
Filter, 2400-2484 MHz
DNI
DFCB22G44LBJAA_DNI
FL1
Filter, 2400-2484 MHz
DNI
DFCB22G44LBJAA_DNI
IN
1
OUT
2
C14
100pF
C14
100pF
1 2
R38
TRACE GAP, NO PART
R38
TRACE GAP, NO PART
12
FL3
Filter, 5597.5MHz
DNI
DFCB35G59LAHAA_DNI
FL3
Filter, 5597.5MHz
DNI
DFCB35G59LAHAA_DNI
IN
1
OUT
2
J2
RFB SMA
J2
RFB SMA
1 2
3
FL2
Filter, 2400-2484 MHz
DNI
DFCB22G44LBJAA_DNI
FL2
Filter, 2400-2484 MHz
DNI
DFCB22G44LBJAA_DNI
IN
1
OUT
2
J4
LON SMA
J4
LON SMA
12
3
C4
0.01uF
C4
0.01uF
12
J7
IF SMA
J7
IF SMA
12
3
C2
10pF
C2
10pF
12
R1
TRACE GAP, NO PART
R1
TRACE GAP, NO PART
12
R6
TRACE GAP, NO PART
R6
TRACE GAP, NO PART
1 2
T1
ADT4-1T
T1
ADT4-1T
3 4
5
1 6
2
J3
LOP SMA
J3
LOP SMA
12
3
R35
TRACE GAP, NO PART
R35
TRACE GAP, NO PART
12
R5
634
R5
634
1 2
R7
TRACE GAP, NO PART
R7
TRACE GAP, NO PART
1 2
J6
RFANTA SMA
J6
RFANTA SMA
1 2
3
C3
5600 pF
C3
5600 pF
12
R3
DNI
R3
DNI
1 2
J9
RFA SMA
J9
RFA SMA
12
3
J8
MXA SMA
J8
MXA SMA
12
3
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
3.3V_IN
PSG
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
GND
GND
VDD
V+LNABA
V+IF
V+IFP
V+IFN
V+PA1A
V+GEN
V+PA2A
V+PA3A
V+PA1B
V+PA2B
V+PA3B
LOADJB
LOADJA
Title
Size Document Number Rev
Date: Sheet
of
TRF2436EVM-SCH
A
TRF2436 Evaluation Module
B
23Thursday, April 13, 2006
Title
Size Document Number Rev
Date: Sheet of
TRF2436EVM-SCH
A
TRF2436 Evaluation Module
B
23Thursday, April 13, 2006
Title
Size Document Number Rev
Date: Sheet of
TRF2436EVM-SCH
A
TRF2436 Evaluation Module
B
23Thursday, April 13, 2006
5 MIL trace
5 MIL trace
R11
10K
R11
10K
TP4TP4
Q2
MMST2222A
Q2
MMST2222A
3
1
2
C18
10uF
C18
10uF
12
Q1
IRLML6401
Q1
IRLML6401
1
2
3
C32
1.2pF
C32
1.2pF
1 2
J11
PA_B SEL
J11
PA_B SEL
1
2
3
C28
.1uF
C28
.1uF
1 2
P2
PSG
BLK
P2
PSG
BLK
1
1
C25
100pF
C25
100pF
1 2
Q3
IRLML6401
Q3
IRLML6401
1
2
3
L7
27 OHM @ 100MHz
L7
27 OHM @ 100MHz
R33
10K
R33
10K
12
C9
100pF
C9
100pF
12
C22
100pF
C22
100pF
12
L11
33nH
L11
33nH
C11
.01uF
C11
.01uF
12
C13
100pF
C13
100pF
12
C17
.01uF
C17
.01uF
12
R9
10K
R9
10K
R30
5.1K
R30
5.1K
C7
10uF
C7
10uF
12
C6
.01uF
C6
.01uF
12
L8
120 ohm @100MHz
L8
120 ohm @100MHz
L6
120 ohm @100MHz
L6
120 ohm @100MHz
R32
10K
R32
10K
12
C23
1000pF
C23
1000pF
12
L3
27 OHM @ 100MHz
L3
27 OHM @ 100MHz
FL5
Filter Block, DC power
Murata BNX002-01
FL5
Filter Block, DC power
Murata BNX002-01
CG1
CB
CG2
CG3
B
PSG
TP3TP3
L2
27 OHM @ 100MHz
L2
27 OHM @ 100MHz
1 2
C5
100pF
C5
100pF
12
Q4
MMST2222A
Q4
MMST2222A
3
1
2
L9
33nH
L9
33nH
L12
120 ohm @ 100MHz
L12
120 ohm @ 100MHz
R8
10K
R8
10K
R31
DNI
R31
DNI
R10
10K
R10
10K
C20
100pF
C20
100pF
1 2
L10
120 ohm @ 100MHz
L10
120 ohm @ 100MHz
J10
PA_A SEL
J10
PA_A SEL
1
2
3
C12
100pF
C12
100pF
1 2
C8
10uF
C8
10uF
C24
.01uF
C24
.01uF
12
C31
100pF
C31
100pF
1 2
P1
+3.3V_IN
RED
P1
+3.3V_IN
RED
1
1
C29
1000pF
C29
1000pF
12
C26
100pF
C26
100pF
12
C21
1.2pF
C21
1.2pF
1 2
C10
1000pF
C10
1000pF
12
C19
100pF
C19
100pF
12
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
VDD VDD
VDD
VDD
VDD
VDD
RXDGC
TR
ABSEL
PABCA PABCB
Title
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Date: Sheet
of
TRF2436EVM-SCH
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TRF2436 Evaluation Module
B
33Thursday, April 13, 2006
Title
Size Document Number Rev
Date: Sheet of
TRF2436EVM-SCH
A
TRF2436 Evaluation Module
B
33Thursday, April 13, 2006
Title
Size Document Number Rev
Date: Sheet of
TRF2436EVM-SCH
A
TRF2436 Evaluation Module
B
33Thursday, April 13, 2006
TP6TP6
R17
1K
R17
1K
R16
1K
R16
1K
R18
1K
R18
1K
U3
MMDT3906
U3
MMDT3906
C2
B1
E1
E2
B2
C1
R29
1K
R29
1K
R24
1K
R24
1K
TP5TP5
R22
200
R22
200
J12
ABSEL
J12
ABSEL
1
2
3
R21
200
R21
200
C33
.01uF
C33
.01uF
12
R20
200
R20
200
R23
200
R23
200
U2
MMDT3906
U2
MMDT3906
C2
B1
E1
E2
B2
C1
R28
1K
R28
1K
J13
TR
J13
TR
1
2
3
R25
1K
R25
1K
J14
RXDGC
J14
RXDGC
1
2
3
R12
10K
R12
10K
R27
2K POT
R27
2K POT
R26
750
R26
750
U4
MMDT3904
U4
MMDT3904
C2
B1
E1
E2
B2
C1
R15
10K
R15
10K
R13
10K
R13
10K
EVALUATION BOARD/KIT IMPORTANT NOTICE
Texas Instruments (TI) provides the enclosed product(s) under the following conditions:
This evaluation board/kit is intended for use for ENGINEERING DEVELOPMENT, DEMONSTRATION, OR EVALUATION
PURPOSES ONLY and is not considered by TI to be a finished end-product fit for general consumer use. Persons handling the
product(s) must have electronics training and observe good engineering practice standards. As such, the goods being provided are
not intended to be complete in terms of required design-, marketing-, and/or manufacturing-related protective considerations,
including product safety and environmental measures typically found in end products that incorporate such semiconductor
components or circuit boards. This evaluation board/kit does not fall within the scope of the European Union directives regarding
electromagnetic compatibility, restricted substances (RoHS), recycling (WEEE), FCC, CE or UL, and therefore may not meet the
technical requirements of these directives or other related directives.
Should this evaluation board/kit not meet the specifications indicated in the User’s Guide, the board/kit may be returned within 30
days from the date of delivery for a full refund. THE FOREGOING WARRANTY IS THE EXCLUSIVE WARRANTY MADE BY
SELLER TO BUYER AND IS IN LIEU OF ALL OTHER WARRANTIES, EXPRESSED, IMPLIED, OR STATUTORY, INCLUDING
ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE.
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claims arising from the handling or use of the goods. Due to the open construction of the product, it is the user’s responsibility to
take any and all appropriate precautions with regard to electrostatic discharge.
EXCEPT TO THE EXTENT OF THE INDEMNITY SET FORTH ABOVE, NEITHER PARTY SHALL BE LIABLE TO THE OTHER
FOR ANY INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES.
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TI assumes no liability for applications assistance, customer product design, software performance, or infringement of
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Please read the User’s Guide and, specifically, the Warnings and Restrictions notice in the User’s Guide prior to handling the
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FCC Warning
This evaluation board/kit is intended for use for ENGINEERING DEVELOPMENT, DEMONSTRATION, OR EVALUATION
PURPOSES ONLY and is not considered by TI to be a finished end-product fit for general consumer use. It generates, uses, and
can radiate radio frequency energy and has not been tested for compliance with the limits of computing devices pursuant to part 15
of FCC rules, which are designed to provide reasonable protection against radio frequency interference. Operation of this
equipment in other environments may cause interference with radio communications, in which case the user at his own expense
will be required to take whatever measures may be required to correct this interference.
EVM WARNINGS AND RESTRICTIONS
It is important to operate this EVM within the input voltage range of 0 V to 3.3 V and the output voltage range of 0 V to 3.3 V.
Exceeding the specified input range may cause unexpected operation and/or irreversible damage to the EVM. If there are
questions concerning the input range, please contact a TI field representative prior to connecting the input power.
Applying loads outside of the specified output range may result in unintended operation and/or possible permanent damage to the
EVM. Please consult the EVM User's Guide prior to connecting any load to the EVM output. If there is uncertainty as to the load
specification, please contact a TI field representative.
During normal operation, some circuit components may have case temperatures greater than 85 ° C. The EVM is designed to
operate properly with certain components above 85 ° C as long as the input and output ranges are maintained. These components
include but are not limited to linear regulators, switching transistors, pass transistors, and current sense resistors. These types of
devices can be identified using the EVM schematic located in the EVM User's Guide. When placing measurement probes near
these devices during operation, please be aware that these devices may be very warm to the touch.
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Texas Instruments Chipset TRF2436EVM User manual

Category
Software licenses/upgrades
Type
User manual
This manual is also suitable for

Texas Instruments Chipset TRF2436EVM: The TRF2436EVM is a platform for evaluating the TRF2436 high-power, dual-band RF front-end under various signals, reference, and supply conditions. Use this document with the EVM schematic diagram supplied.

Using the TRF2436EVM, you will be able to rapidly evaluate the TRF2436 with a minimum of manual setup. The board comes with easy-to-use factory-set configurations so you can get started right away.

Here are some of the features and use cases for the TRF2436EVM:

  • Signal generation: The EVM can be used to generate signals for testing the TRF2436. This includes generating LO signals, IF signals, and RF signals.

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