MAXIM MAX2572EVKIT

19-3368; Rev 0; 7/04
MAX2560/MAX2566/MAX2572 Evaluation Kits
Features
♦ On-Board PCS and Cellular VCOs
♦ WCDMA, GSM900, DCS1800, GSM1900 Modes
(MAX2566/MAX2572 EV Kits)
♦ 50Ω SMA Connectors on All RF and Baseband
Ports
♦ Low-Power Shutdown Mode
♦ EV-Kit Control Software Available at
www.maxim-ic.com
♦ SPITM/QSPITM/MICROWIRETM Compatible
Ordering Information
TEMP RANGE
IC PACKAGE
MAX2560EVKIT
PART
-40°C to +85°C
48 QFN-EP*
MAX2566EVKIT
-40°C to +85°C
48 QFN-EP*
MAX2572EVKIT
-40°C to +85°C
48 QFN-EP*
*EP = Exposed paddle.
Component Suppliers
SUPPLIER
PHONE
FAX
WEBSITE
AVX
803-946-0690
803-626-3123
Coilcraft
847-639-6400
847-639-1469
www.coilcraft.com
Murata
770-436-1300
770-436-3030
www.murata.com
Taiyo Yuden
408-573-4150
408-573-4159
www.t-yuden.com
TOKO
708-297-0070
708-699-1194
www.toko.com
www.avxcorp.com
Note: Indicate that you are using the MAX2560/MAX2566/MAX2572 when contacting these component suppliers.
MAX2560 Component List
DESIGNATION QTY
DESCRIPTION
C1
1
4.7pF ±0.1pF ceramic capacitor (0402)
Murata GRP1555C1H4R7B
C2, C4, C39
3
33pF ±5% ceramic capacitors (0402)
Murata GRP1555C1H330J
C3, C7, C116
3
10µF ±10% ceramic capacitors (1206)
Murata GRM31CR60J106K
C5
1
6.8pF ±0.1pF capacitor (0402)
Murata GRP1555C1H6R8B
SPI and QSPI are trademarks of Motorola, Inc.
Microwire is a trademark of National Semiconductor Corp.
DESIGNATION QTY
DESCRIPTION
C6, C8, C9, C11,
C12, C14, C15,
C17, C18, C20,
C27, C28, C29,
C34, C35, C47,
C48, C50, C51,
C53, C54, C56,
C58, C59, C64,
C66, C93, C94,
C102–C106,
C112–C115
37
Open
C10
1
3.3µF ±10% ceramic capacitor (0805)
Murata GRM21BR60J335K
C13, C16, C31,
C32, C41, C42,
C55
7
0.022µF ±10% ceramic capacitors
(0402)
Murata GRP155R71C223K
________________________________________________________________ Maxim Integrated Products
For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at
1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com.
1
Evaluate: MAX2560/MAX2566/MAX2572
General Description
The MAX2560/MAX2566/MAX2572 evaluation kits (EV
kits) simplify testing of the MAX2560/MAX2566/
MAX2572. The EV kits provide 50Ω SMA connectors for
all RF inputs, baseband inputs, and RF outputs. Onboard VCOs are provided for the on-chip PLLs.
The EV kits allow evaluation of the MAX2560/MAX2566/
MAX2572s’ I/Q modulator, RF upconverter, IF and RF
VGAs, IF and RF PLLs, 3-wire programmable interface,
and power-management features.
The MAX2560/MAX2566/MAX2572 support CDMA,
TDMA, and EDGE modes for US PCS and cellular
bands, as well as W-CDMA mode for UMTS band. The
MAX2566/MAX2572 also support GSM-GPRS mode for
all four bands.
Evaluate: MAX2560/MAX2566/MAX2572
MAX2560/MAX2566/MAX2572 Evaluation Kits
MAX2560 Component List (continued)
DESIGNATION QTY
DESCRIPTION
5
1.0µF ±10% ceramic capacitors (1206)
Murata GRM31MR71E105K
C22, C23, C30,
C43, C44, C45,
C57, C82, C83,
C84, C97, C98
12
1000pF ±10% ceramic capacitors (0402)
Murata GRP155R71H102K
C24
1
10pF ±0.1pF ceramic capacitor (0402)
Murata GRP1555C1H100B
C25
1
22pF ±5% ceramic capacitor (0402)
Murata GRP1555C1H220J
C21, C36, C37,
C90, C100
1
4700pF ±10% ceramic capacitor (0402)
Murata GRP155R71E472K
4
100pF ±5% ceramic capacitors (0402)
Murata GRP1555C1H101J
C38
1
0.1µF ±10% ceramic capacitor (0603)
Murata GRM188R71E104K
C40, C67, C68,
C69
4
15pF ±5% ceramic capacitors (0402)
Murata GRP1555C1H150J
C46, C60, C63
3
0.01µF ±10% ceramic capacitors (0402)
Murata GRP155R71E103K
C49
1
0.015µF ±10% ceramic capacitor (0402)
Murata GRP155R71C153K
C52
1
0.33µF ±10% ceramic capacitor (1206)
Murata GRM319R71H334K
C26
C33, C85,
C110, C111
1
220pF ±10% ceramic capacitor (0402)
Murata GRP155R71H221K
C62
1
2200pF ±10% ceramic capacitor (0402)
Murata GRP155R71H222K
C65
1
0.47µF ±10% ceramic capacitor (0402)
Murata GRP155R60J474K
C61
DESIGNATION QTY
DESCRIPTION
C86
1
47pF ±5% ceramic capacitor (0402)
Murata GRP1555C1H470J
C87
1
39pF ±5% (0402) ceramic capacitor
Murata GRP1555C1H390J
C91, C92, C95
3
56pF ±5% ceramic capacitors (0402)
Murata GRP1555C1H560J
C96, C99
2
22µF ±10% ceramic capacitors (1206)
Murata GRM31CR60J226K
J1, J2, J7–J11,
J15, J16, J17,
J59
11
SMA edge mount connectors—round
contacts
Johnson 142-0701-801
J3, J6, J33
3
Open
J4, J5,
J18–J22, J31,
JU6–JU10,
JU12, JU14,
JU16–JU23,
JU28–JU31
27
1 x 2, 2-pin in-line headers, 100-mil
centers
Sullins PTC36SAAN
J24
1
2 x 10, dual in-line header, 100-mil
centers
Sullins PTC36DAAN
JU24
1
1 x 5, 5-pin header, 100-mil centers
Sullins PTC36SAAN
JU1–JU5,
JU11, JU13,
JU15
8
1 x 3, 3-pin in-line headers, 100-mil
centers
Sullins PTC36SAAN
JU25, JU26,
JU27, JU32,
JU33, JU34
6
Open
J12, J13, J14,
TP1, TP2, TP3,
TP5, TP6, TP7
9
Test points
Keystone 5000
3
1.0µF ±10% tantalum capacitors
A case AVX TAJA105K016
L1
1
C72
1
1.0µF ±10% ceramic capacitor (0402)
Murata GRP155R60J105K
3.9nH ±0.3nH inductor (0402)
Murata LQG15HN3N9S00
1
3
0.1µF ±10% ceramic capacitors (0805)
Murata GRM21BR71H104K
L2
C74, C88, C89
3.3nH ±0.3nH inductor (0402)
Murata LQG15HN3N3S00
C76, C77,
C101, C109
4
0.01µF ±10% ceramic capacitors (0805)
Murata GRM216R71H103K
C70, C73, C75
2
_______________________________________________________________________________________
MAX2560/MAX2566/MAX2572 Evaluation Kits
DESIGNATION QTY
DESCRIPTION
DESIGNATION QTY
DESCRIPTION
R50
1
200Ω ±5% resistor (0402)
R58
1
7.5kΩ ±5% resistor (0402)
15nH ±3% inductors (0402)
Murata LQW15AN15NH00
R61, R63–R68
7
5.1kΩ ±5% resistors (0402)
R62
1
51Ω ±5% resistor (0402)
2
8.2nH ±5% inductors (0402)
Coilcraft 0402CS-8N2XJB
R99, R100,
R101, R102
4
511Ω ±1% resistors (0402)
1
33nH ±5% inductor (0402)
Murata LQG15HN33NJ00
R103, R108
2
3.16kΩ ±1% resistors (0402)
R105, R106
2
22.1Ω ±1% resistors (0402)
2
12nH ±2% inductors (0402)
Murata LQP15MN12NG02
R109, R110
2
1.2kΩ ±5% resistors (0402)
T3
1
Open
L18
1
22nH ±5% inductor (0402)
Murata LQG15HN22NJ00
T5, T6
2
Balun transformers B5F
TOKO 458DB-1011
L19
1
27nH ±5% inductor (0402)
Murata LQG15HN27NJ00
U1
1
MAX2560 48-pin QFN
MAX2560EGM
U2
1
Open
U4
1
Open
U5
1
Open
U6
1
Open
U7, U8, U9
3
SOT23 SOT23-5L
MAX8867EUK28
U10
1
VCO
Fujitsu VC-2R8A50-2139
U11, U12
2
Low-voltage precision op amps
MAX412CSA
Y1
1
19.2MHz VC TCXO
Kinseki VC-TCXO-208C-19P2
None
1
36in socket connector ribbon
cable—20 contacts
L3, L4, L12,
L13, L14
5
Open
2
L9, L10
L15
L7, L8
L16, L17
R1, R2, R3, R5,
R7, R10–R13,
R18, R20, R23,
R25, R27, R28,
R38, R46, R48,
R49, R51–R54,
R56, R57, R59
26
R4, R8, R9
3
3.3Ω ±5% resistors (0402)
R6
1
10kΩ ±10% variable resistor
Bournes 3296W-103
R14
1
2.7kΩ ±5% resistor (0402)
Open
R15, R16, R17,
R22, R26, R55,
R70, R76–R79
11
R19
1
20Ω ±1% resistor (0402)
R21
1
6.8Ω ±5% resistor (0402)
None
1
INTF2300 interface board
R24
1
100Ω ±5% resistor (0402)
None
1
R39
1
13kΩ ±1% resistor (0402)
MAX2562/MAX2566/MAX2572 EV kit
circuit board rev 3
None
1
MAX2560/MAX2566/MAX2572 data
sheet
None
1
MAX2560/MAX2566/MAX2572 EV kit
data sheet
R40, R45, R96,
R97, R98,
R104, R107
7
R47
1
0Ω ±5% resistors (0402)
1kΩ ±1% resistors (0402)
220Ω ±5% resistor (0402)
_______________________________________________________________________________________
3
Evaluate: MAX2560/MAX2566/MAX2572
MAX2560 Component List (continued)
Evaluate: MAX2560/MAX2566/MAX2572
MAX2560/MAX2566/MAX2572 Evaluation Kits
MAX2566 Component List
DESIGNATION
QTY
C1
1
4.7pF ±0.1pF ceramic capacitor (0402)
Murata GRP1555C1H4R7B
C2, C4, C39
3
33pF ±5% ceramic capacitors (0402)
Murata GRP1555C1H330J
C3, C7, C116
3
10µF ±10% ceramic capacitors (1206)
Murata GRM31CR60J106K
C5
1
C6, C91, C92
3
C8, C10, C11,
C20, C27, C29,
C34, C47, C48,
C50, C51,
C53–C59, C64,
C93, C94, C95
22
DESCRIPTION
DESIGNATION QTY
DESCRIPTION
C31
1
0.022µF ±10% ceramic capacitor (0402)
Murata GRP155R71C223K
C33, C41, C42,
C85, C105,
C106, C110,
C111
8
100pF ±5% ceramic capacitors (0402)
Murata RP1555C1H101J
6.8pF ±0.1pF ceramic capacitor (0402)
Murata GRP1555C1H6R8B
C38
1
0.1µF ±10% ceramic capacitor (0603)
Murata GRM188R71E104K
56pF ±5% ceramic capacitors (0402)
Murata GRP1555C1H560J
C40, C67, C68,
C69
4
15pF ±5% ceramic capacitors (0402)
Murata GRP1555C1H150J
C46, C60, C63
3
0.01µF ±10% ceramic capacitors (0402)
Murata GRP155R71E103K
C52
1
0.033µF ±5% film capacitor (1206)
Panasonic ECHU1C333JX5
C61
1
2200pF ±10% ceramic capacitor (0402)
Murata GRP155R71H222K
C65
1
0.47µF ±10% ceramic capacitor (0402)
Murata GRP155R60J474K
C66
1
1.0pF ±0.1pF ceramic capacitor (0402)
Murata GRP1555C1H1R0B
Open
C9, C13, C16,
C17, C18, C22,
C23, C30, C32,
C43, C44, C45,
C49, C82, C83,
C84, C97, C98
18
C12
1
270pF ±10% ceramic capacitor (0402)
Murata GRP155R71H271K
C70, C73, C75
3
1.0µF ±10% tantalum capacitors
A Case AVX TAJA105K016
C14,
C112–C115
5
680pF ±10% ceramic capacitors (0402)
Murata GRP155R71H681K
C72
1
1.0µF ±10% ceramic capacitor (0402)
Murata GRP155R60J105K
C15, C62
2
6800pF ±10% ceramic capacitors (0402)
Murata GRP155R71E682K
C74, C88, C89
3
0.1µF ±10% ceramic capacitors (0805)
Murata GRM21BR71H104K
C21, C36, C37,
C90, C100
5
1.0µF ±10% ceramic capacitors (1206)
Murata GRM31MR71E105K
C76, C77,
C101, C109
4
0.01µF ±10% ceramic capacitors (0805)
Murata GRM216R71H103K
C24, C35
2
10pF ±0.1pF ceramic capacitors (0402)
Murata GRP1555C1H100B
C86, C87
2
8.0pF ±0.1pF ceramic capacitors (0402)
Murata GRP1555C1H8R0B
C25
1
12pF ±5% ceramic capacitor (0402)
Murata GRP1555C1H120J
C96, C99
2
22µF ±10% ceramic capacitors (1206)
Murata GRM31CR60J226K
C26, C55
2
4700pF ±10% ceramic capacitors (0402)
Murata GRP155R71E472K
C102
1
27pF ±5% ceramic capacitor (0402)
Murata GRP1555C1H270J
C28
1
470pF ±10% ceramic capacitor (0402)
Murata GRP155R71H471K
C103, C104
2
2.2pF ±0.1pF ceramic capacitors (0402)
Murata GRP1555C1H2R2B
4
1000pF ±10% ceramic capacitors
(0402)
Murata GRP155R71H102K
_______________________________________________________________________________________
MAX2560/MAX2566/MAX2572 Evaluation Kits
DESIGNATION QTY
J1, J2, J3,
J6–J11, J15,
J16, J17, J33,
J59
14
J24
1
J4, J5,
J18–J22, J31,
JU6–JU10,
JU12, JU14,
JU16–JU23,
JU28–JU31
27
JU24
1
JU1–JU5,
JU11, JU13,
JU15, JU25,
JU26, JU27,
JU32
12
JU33, JU34
2
DESCRIPTION
SMA edge-mount connectors—round
contacts
Johnson 142-0701-801
2 x 10, dual in-line header, 100-mil
centers
Sullins PTC36DAAN
1 x 2, 2-pin in-line headers, 100-mil
centers
Sullins PTC36SAAN
1 x 5, 5-pin header, 100-mil centers
Sullins PTC36SAAN
1 x 3, 3-pin in-line headers, 100-mil
centers
Sullins PTC36SAAN
Open
DESIGNATION QTY
DESCRIPTION
L16
1
7.5nH ±5% inductor (0402)
Coilcraft 0402CS-7N5XJB
L17
1
5.1nH ±5% inductor (0402)
Coilcraft 0402CS-5N1XJB
L18
1
22nH ±5% inductor (0402)
Murata LQG15HN22NJ00
L19
1
12nH ±5% inductor (0402)
Murata LQG15HN12NJ00
R1, R6
2
10kΩ ±10% variable resistors
Bournes 3296W-1-103
R2, R3
2
150Ω ±5% resistors (0402)
R4, R8, R9
3
3.3Ω ±5% resistors (0402)
R5, R15, R16,
R17, R19, R20,
R23, R24, R25,
R27, R28, R38,
R46, R48, R49,
R51–R57, R59
23
Open
R7, R18, R22,
R26, R76–R79
8
0Ω ±5% resistors (0402)
R10
1
56Ω ±5% resistor (0402)
R11
1
1MΩ ±5% resistor (0402)
R13, R45, R96,
R97, R98
5
100Ω ±1% resistors (0402)
J12, J13, J14,
TP1, TP2, TP3,
TP5, TP6, TP7
9
L1
1
3.3nH ±0.2nH inductor (0402)
Murata LQP15MN3N3C00
R14
1
2.7kΩ ±5% resistor (0402)
1
6.8Ω ±5% resistor (0402)
1
2.2nH ±0.3nH inductor (0402)
Murata LQG15HN2N2S00
R21
L2
R39
1
13kΩ ±1% resistor (0402)
2
100nH ±5% inductors (0402)
TOKO LLV1005-FBR10J
R40, R104,
R107
3
L3, L4
1kΩ ±5% resistors (0402)
R47
1
365Ω ±1% resistor (0402)
L7, L8
2
5.6nH ±5% inductors (0402)
Coilcraft 0402CS-5N6XJB
R50
1
430Ω ±5% resistor (0402)
L9, L10, L13
3
9nH ±5% inductors (0402)
Coilcraft 0402CS-9N0XJB
L12
1
27pF ±5% ceramic capacitor (0402)
Murata GRP1555C1H270J
L14
1
L15
1
Test points
Keystone 5000
R58
1
2.0kΩ ±5% resistor (0402)
R61,
R63–R68, R70
8
5.1kΩ ±5% resistors (0402)
R62
1
51Ω ±5% resistor (0402)
15nH ±5% inductor (0402)
Murata LQG15HN15NJ00
R99,
R100–R103,
R108
6
511Ω ±1% resistors (0402)
33nH ±2% inductor (0402)
Murata LQP15MN33NG00
R105, R106
2
39Ω ±5% resistors (0402)
R109, R110
2
680Ω ±5% resistors (0402)
_______________________________________________________________________________________
5
Evaluate: MAX2560/MAX2566/MAX2572
MAX2566 Component List (continued)
Evaluate: MAX2560/MAX2566/MAX2572
MAX2560/MAX2566/MAX2572 Evaluation Kits
MAX2566 Component List (continued)
DESIGNATION QTY
DESCRIPTION
DESIGNATION QTY
DESCRIPTION
Y1
1
13.0MHz VC TCXO
Kinseki VC-TCXO-208C-13P0
MAX2566 48-pin QFN
MAX2566EGM
None
1
36in socket connector ribbon
cable—20 contacts
GSM VCO
Murata MQT1C1A897M
None
1
INTF2300 interface board
1
None
1
U4
1
Open
MAX2562/MAX2566/MAX2572 EV kit
circuit board rev 3
U5
1
Open
None
1
U6
1
Open
MAX2560/MAX2566/MAX2572 data
sheet
U7, U8, U9
3
SOT23 SOT23-5L
MAX8867EUK28
None
1
MAX2560/MAX2566/MAX2572 EV kit
data sheet
U10
1
Open
U11, U12
2
Low-voltage, precision op amps
MAX412CSA
T3, T5, T6
3
Transformers B5F
TOKO 458DB-1011
U1
1
U2
MAX2572 Component List
DESIGNATION QTY
DESIGNATION QTY
DESCRIPTION
C1
1
4.7pF ±0.1pF ceramic capacitor (0402)
Murata GRP1555C1H4R7B
C10, C20
2
3.3µF ±10% ceramic capacitors (0805)
Murata GRM21BR60J335K
C2, C4, C39
3
33pF ±5% ceramic capacitors (0402)
Murata GRP1555C1H330J
C27, C34, C64
3
Open
C3, C7, C116
3
10µF ±10% ceramic capacitors (1206)
Murata GRM31CR60J106K
C12
1
270pF ±10% ceramic capacitor (0402)
Murata GRP155R71H271K
C5
1
6.8pF ±0.1pF ceramic capacitor (0402)
Murata GRP1555C1H6R8B
8
680pF ±10% ceramic capacitors (0402)
Murata GRP155R71H681K
C6, C8,
C91–C95
7
56pF ±5% ceramic capacitors (0402)
Murata GRP1555C1H560J
C14, C48, C49,
C50,
C112–C115
C15, C62
2
6800pF ±10% ceramic capacitors (0402)
Murata GRP155R71E682K
C21, C36, C37,
C90, C100
5
1.0µF ±10% ceramic capacitors (1206)
Murata GRM31MR71E105K
C24, C35
2
10pF ±0.1pF ceramic capacitors (0402)
Murata GRP1555C1H100B
C25
1
12pF ±5% ceramic capacitor (0402)
Murata GRP1555C1H120J
C9, C11, C13,
C16, C17, C18,
C22, C23, C30,
C32, C43, C44,
C45, C56–C59,
C82, C83, C84,
C97, C98
6
DESCRIPTION
22
1000pF ±10% ceramic capacitors (0402)
Murata GRP155R71H102K
_______________________________________________________________________________________
MAX2560/MAX2566/MAX2572 Evaluation Kits
DESIGNATION QTY
DESCRIPTION
DESIGNATION QTY
DESCRIPTION
C26
1
4700pF ±10% ceramic capacitor (0402)
Murata GRP155R71E472K
C102
1
27pF ±5% ceramic capacitor (0402)
Murata GRP1555C1H270J
C28, C29, C47
3
470pF ±10% ceramic capacitors (0402)
Murata GRP155R71H471K
C103, C104
2
2.2pF ±0.1pF ceramic capacitors (0402)
Murata GRP1555C1H2R2B
C31, C51
2
0.022µF ±10% ceramic capacitors (0402)
Murata GRP155R71C223K
J1, J2, J3,
J6–J11, J15,
J16, J17, J33,
J59
14
SMA edge-mount connectors—round
contact
Johnson 142-0701-801
J24
1
2 x 10, dual in-line header, 100-mil
centers
Sullins PTC36DAAN
J4, J5,
J18–J22, J31,
JU6–JU10,
JU12, JU14,
JU16–JU23,
JU28–JU31
27
1 x 2, 2-pin in-line headers, 100-mil
centers
Sullins PTC36SAAN
JU24
1
1 x 5, 5-pin in-line header, 100-mil
centers
Sullins PTC36SAAN
JU1–JU5,
JU11, JU13,
JU15, JU25,
JU26, JU27,
JU32, JU33,
JU34
14
1 x 3, 3-pin in-line headers, 100-mil
centers
Sullins PTC36SAAN
J12, J13, J14,
TP1, TP2, TP3,
TP5, TP6, TP7
9
Test points
Keystone 5000
C33, C41, C42,
C85, C105,
C106, C110,
C111
8
C38
1
0.1µF ±10% ceramic capacitor (0603)
Murata GRM188R71E104K
C40, C67, C68,
C69
4
15pF ±5% ceramic capacitors (0402)
Murata GRP1555C1H150J
C46, C60, C63
3
0.01µF ±10% ceramic capacitors (0402)
Murata GRP155R71E103K
C52, C53
2
0.022µF ±5% film capacitors (1206)
Panasonic ECHU1C223JX5
100pF ±5% ceramic capacitors (0402)
Murata GRP1555C1H101J
C54, C55
2
1500pF ±10% ceramic capacitors (0402)
Murata GRP155R71H152K
C61
1
2200pF ±10% ceramic capacitor (0402)
Murata GRP155R71H222K
C65
1
0.47µF ±10% ceramic capacitor (0402)
Murata GRP155R60J474K
C66
1
1.0pF ±0.1pF ceramic capacitor (0402)
Murata GRP1555C1H1R0B
C70, C73, C75
3
1.0µF ±10% tantalum capacitors
A case AVX TAJA105K016
C72
1
1.0µF ±10% ceramic capacitor (0402)
Murata GRP155R60J105K
L1
1
3.3nH ±0.2nH inductor (0402)
Murata LQP15MN3N3C00
C74, C88, C89
3
0.1µF ±10% ceramic capacitors (0805)
Murata GRM21BR71H104K
L2
1
2.2nH ±0.3nH inductor (0402)
Murata LQG15HN2N2S00
C76, C77,
C101, C109
4
0.01µF ±10% ceramic capacitors (0805)
Murata GRM216R71H103K
L3, L4
2
100nH ±5% inductors (0402)
TOKO LLV1005-FBR10J
C86, C87
2
8.0pF ±0.1pF ceramic capacitors (0402)
Murata GRP1555C1H8R0B
L7, L8
2
5.6nH ±5% inductors (0402)
Coilcraft 0402CS-5N6XJB
C96, C99
2
22µF ±10% ceramic capacitors (1206)
Murata GRM31CR60J226K
L9, L10, L13
3
9nH ±5% inductors (0402)
Coilcraft 0402CS-9N0XJB
_______________________________________________________________________________________
7
Evaluate: MAX2560/MAX2566/MAX2572
MAX2572 Component List (continued)
Evaluate: MAX2560/MAX2566/MAX2572
MAX2560/MAX2566/MAX2572 Evaluation Kits
MAX2572 Component List (continued)
DESIGNATION QTY
DESCRIPTION
L12
1
27pF ±5% ceramic capacitor (0402)
Murata GRP1555C1H270J
L14
1
15nH ±5% inductor (0402)
Murata LQG15HN15NJ00
DESCRIPTION
R51
1
330Ω ±5% resistor (0402)
R55, R57
2
576Ω ±1% resistors (0402)
R58
1
2.0kΩ ±5% resistor (0402)
R61, R63–R68,
R70
8
5.1kΩ ±5% resistors (0402)
R62
1
51Ω ±5% resistor (0402)
L15
1
33nH ±2% inductor (0402)
Murata LQP15MN33NG00
L16
1
7.5nH ±5% inductor (0402)
Coilcraft 0402CS-7N5XJB
R99–R103,
R108
6
511Ω ±1% resistors (0402)
L17
1
5.1nH ±5% inductor (0402)
Coilcraft 0402CS-5N1XJB
R105, R106
2
39Ω ±5% resistors (0402)
R109, R110
2
680Ω ±5% resistors (0402)
L18
1
22nH ±5% inductor (0402)
Murata LQG15HN22NJ00
T3, T5, T6
3
Balun transformers B5F
TOKO 458DB-1011
L19
1
12nH ±5% inductor (0402)
Murata LQG15HN12NJ00
U1
1
MAX2572 48-pin QFN
U2
1
GSM VCO
Murata MQT1C1A897M
U4
1
UMTS VCO
Murata MQK301-1528
U5
1
VCO
Murata MQE956A1G32
U6
1
GSM/DCS VCO
Murata MQW140A1G23
U7, U8, U9
3
SOT23-5L
MAX8867EUK28
U10
1
Open
U11, U12
2
Low-voltage precision op amps
MAX412CSA
Y1
1
13.0MHz VC TCXO
Kinseki VC-TCXO-208C-13P0
None
1
36in socket connector ribbon
cable—20 contacts
None
1
INTF2300 interface board
None
1
MAX2560/MAX2566/MAX2572 EV kit
circuit board rev 3
None
1
MAX2560/MAX2566/MAX2572
data sheet
None
1
MAX2560/MAX2566/MAX2572
EV kit data sheet
R1, R6
2
10kΩ ±10% variable resistors
Bournes 3296W-1-103
R2, R3
2
150Ω ±5% resistors (0402)
R4, R8, R9
3
3.3Ω ±5% resistors (0402)
R5, R7, R18,
R22–R27,
R76–R79
13
0Ω ±5% resistors (0402)
R10
1
56Ω ±5% resistor (0402)
R11
1
1MΩ ±5% resistor (0402)
R12
1
33Ω ±5% resistor (0402)
R13, R14, R45,
R96, R97, R98
6
100Ω ±1% resistors (0402)
R15, R16, R17,
R38, R52, R53,
R54, R56, R59
9
Open
R19, R20
2
20Ω ±1% resistors (0402)
R21
1
6.8Ω ±5% resistor (0402)
8
DESIGNATION QTY
R28
1
576Ω ±5% resistor (0402)
R39
1
13kΩ ±1% resistor (0402)
R40, R104,
R107
3
1kΩ ±5% resistors (0402)
R46
1
430Ω ±5% resistor (0402)
R47, R48
2
510Ω ±5% resistors (0402)
R49, R50
2
360Ω ±5% resistors (0402)
_______________________________________________________________________________________
MAX2560/MAX2566/MAX2572 Evaluation Kits
The MAX2560/MAX2566/MAX2572 EV kits are fully
assembled and factory tested. Follow the instructions in
the Connections and Setup section.
Test Equipment Required
This section lists the recommended test equipment to
verify the operation of the MAX2560/MAX2566/
MAX2572. It is intended as a guide only, and substitutions may be possible.
• One RF signal generator capable of delivering -5dBm
of output power in the 1GHz to 3GHz frequency
range (HP8648 or equivalent) for the external RF LO
• An RF spectrum analyzer with optional digital modulation personality (Rohde & Schwarz FSEA30 or
equivalent)
• A power supply capable of providing 200mA at +5V
• A power supply capable of providing 50mA at 6.8V
• A power supply capable of providing -50mA at -3.2V
• I/Q arbitrary waveform generator (Agilent E4433B or
equivalent)
• PC (486DX33 or better) with WindowsTM95/98, 2000,
NT 4.0 or later operating system and an available
parallel port
• INTF2300 interface board (supplied with EV kit)
Connections and Setup
5) With MAX2560/MAX2566/MAX2572 control software
active in the REG screen, set the SHDN box to 0 to
place the IC in shutdown mode.
6) Turn on the power supplies.
Cellular CDMA Mode
Perform the following steps to evaluate the MAX2560 in
the cellular CDMA mode:
1) Verify shunt JU24 is in the LOTDMA position.
2) With MAX2560/MAX2566/MAX2572 control software
active in the REG screen, use Table 1 to set the operating mode to cellular CDMA. Also, change the reference frequency to 19.2MHz in the control software.
3) Connect the I and Q outputs of the arbitrary waveform generator to the I (J15) and Q (J16) ports. Set
the generator to reverse-channel CDMA settings.
Set the output voltage level to 400mVPK.
4) Connect RFL (J9) to the spectrum analyzer.
Configure the spectrum analyzer to measure ACPR
for the reverse-channel CDMA. Set the center frequency to 836MHz with 50MHz span and a
+10dBm reference level.
5) Adjust the R6 (VGCIF) to obtain an output power of
+8dBm after accounting for cable and connector
loss. The ACPR in 30kHz bandwidth at ±885kHz
offset should be -54dBc, and the ACPR in 30kHz
bandwidth at ±1.98MHz offset should be -65dBc.
This section provides step-by-step instructions for getting the EV kit up and running in CDMA, WCDMA, and
GSM modes.
1) Verify shunts JU6–JU22 and JU28–JU31 are in place.
PCS CDMA Mode
Perform the following steps to evaluate the MAX2560 in
the PCS CDMA mode:
1) Verify shunt JU24 is in the LOTDMA position.
2) Connect the INTF2300 interface cable to the EV kit.
Note: Pin 1 of the interface cable corresponds to
the red wire. Pin 1 is designated in silkscreen on
each of the PC boards.
2) With MAX2560/MAX2566/MAX2572 control software
active in the REG screen, use Table 1 to set the
operating mode to PCS CDMA. Also, change the reference frequency to 19.2MHz in the control software.
3) With the power supply turned off, connect a +5.0V
power supply to the header labeled V5.0 (J31).
Connect the power-supply ground to the header
labeled GND (J5). (The MAX2560 requires two
additional power supplies. Connect the +6.8V
power supply to JU28, and connect the -3.2V to
TP2. Connect the grounds to GND (J5) or GND
(J20), or both.)
4) Install and run the MAX2560/MAX2572 control software. The MAX2566 has its own control software.
Software is available for download on the Maxim
website at www.maxim-ic.com.
3) Connect the I and Q outputs of the arbitrary waveform generator to the I (J15) and Q (J16) ports. Set
the generator to reverse-channel CDMA settings.
Set the output voltage level to 400mVPK.
Windows is a trademark of Microsoft.
4) Connect RFH0 (J1) to the spectrum analyzer.
Configure the spectrum analyzer to measure ACPR
for the reverse-channel CDMA. Set the center frequency to 1880MHz with 50MHz span and a
+10dBm reference level.
5) Adjust the R6 (VGCIF) to obtain an output power of
+8dBm after accounting for cable and connector
loss. The ACPR in 30kHz bandwidth at ±1.25MHz
offset should be -54dBc, and the ACPR in 30kHz
bandwidth at ±1.98MHz offset should be -65dBc.
_______________________________________________________________________________________
9
Evaluate: MAX2560/MAX2566/MAX2572
Quick Start
Evaluate: MAX2560/MAX2566/MAX2572
MAX2560/MAX2566/MAX2572 Evaluation Kits
WCDMA Mode
Perform the following steps to evaluate the MAX2566/
MAX2572 in the WCDMA mode:
1) Verify shunt JU24 is in the LOUMTS position.
2) With MAX2560/MAX2566/MAX2572 control software
active in the REG screen, use Tables 2 and 3 to set
the operating mode to WCDMA.
3) Connect the I and Q outputs of the arbitrary waveform generator to the I (J15) and Q (J16) ports. Set
the generator to WCDMA settings. Verify 300mV
peak baseband signal on Q+/Q- (JU2) and I+/I(JU1), or 600mV peak-to-peak differential.
4) The MAX2566 EV kit requires an external LO input.
Apply an external LO 1565MHz at -10dBm to the
LOH port.
5) Connect RFH0 (J1) to the spectrum analyzer.
Configure the spectrum analyzer to measure ACPR
for the uplink WCDMA. Set the center frequency to
1950MHz with 50MHz span and a +10dBm reference level.
6) Adjust the R1 (VGCRF) and R6 (VGCIF) (only adjust
VGCIF if VGS = 1) to obtain an output power of
+8dBm after accounting for cable and connector loss.
The ACPR in 3.84MHz bandwidth at ±5MHz offset
should be -49dBc, and the ACPR in 3.84MHz band-
width at ±10MHz offset should be -62dBc. Note that
C112–C115 are disconnected for this measurement.
GSM 900 Mode
Perform the following steps to evaluate the
MAX2566/MAX2572 in the GSM 900 mode:
1) Verify shunts JU23–JU26 and JU33 positions with
Table 4.
2) With MAX2560/MAX2566/MAX2572 control software
active in the REG screen, use Tables 2 and 3 to set
the operating mode to GSM 900 mode.
3) Connect the I and Q outputs of the arbitrary waveform generator to the I (J15) and Q (J16) ports. Set
the generator to GSM settings. Verify 300mV peak
baseband signal on Q+/Q- (JU2) and I+/I- (JU1), or
600mV peak-to-peak differential.
4) The MAX2566 EV kit requires an external LO input.
Apply an external LO 1190MHz at -10dBm to the
LOH port.
5) Connect GSM (J3) to the spectrum analyzer.
Configure the spectrum analyzer to measure spectral mask for the GSM signal. Set the center frequency to 900MHz with 50MHz span and a
+10dBm reference level.
Table 1. MAX2560 Register Settings
REGISTER (hex)
CELLULAR CDMA
PCS CDMA
FRAC_SYNTH
0B4FDF
0B4FDF
FRAC
020000
005555
IF_N
000497
000519
IF_SYNTH
00D830
00D830
OPCTRL
09C01F
09F49F
CONFIG
07A307
07A307
TEST
000025
000025
Table 2. MAX2566 Register Settings
10
REGISTER (hex)
WCDMA
GSM 900
DCS 1800
GSM 1900
FRAC_SYNTH
0B603B
0B602C
0B602C
0B602C
FRAC
03B13B
09D89E
09D89E
09D89E
IF_N
000302
000244
000244
000244
IF_SYNTH
00D80D
00D80D
00D80D
00D80D
OPCTRL
0DF77F
0D876F
0D876F
0D876F
CONFIG
07A103
07BD007
04BD0F
04BD0F
TEST
000025
000025
000025
000025
______________________________________________________________________________________
MAX2560/MAX2566/MAX2572 Evaluation Kits
1) Verify shunts JU23–JU26 and JU33 positions with
Table 4.
3) Connect the I and Q outputs of the arbitrary waveform generator to the I (J15) and Q (J16) ports. Set
the generator to GSM settings. Verify 300mV peak
baseband signal on Q+/Q- (JU2) and I+/I- (JU1), or
600mV peak-to-peak differential.
2) With MAX2560/MAX2566/MAX2572 control software
active in the REG screen, use Tables 2 and 3 to set
the operating mode to DCS 1800 mode.
4) The MAX2566 EV kit requires an external LO input.
Apply an external LO 1610MHz at -10dBm to the
LOH port.
3) Connect the I and Q outputs of the arbitrary waveform generator to the I (J15) and Q (J16) ports. Set
the generator to GSM settings. Verify 300mV peak
baseband signal on Q+/Q- (JU2) and I+/I- (JU1), or
600mV peak-to-peak differential.
5) Connect GSM (J33) to the spectrum analyzer.
Configure the spectrum analyzer to measure spectral mask for the GSM signal. Set the center frequency to 1900MHz with a +10dBm reference level.
4) The MAX2566 EV kit requires an external LO input.
Apply an external LO 1510MHz at -10dBm to the
LOH port.
The MAX2560/MAX2566/MAX2572 EV kits can serve as
guides for board layout. Keep PC board trace lengths
as short as possible to minimize parasitics. Also, keep
decoupling capacitors as close to the IC as possible
with a direct connection to the ground plane.
5) Connect GSM (J33) to the spectrum analyzer.
Configure the spectrum analyzer to measure spectral mask for the GSM signal. Set the center frequency to 1800MHz with 50MHz span and a
+10dBm reference level.
GSM 1900 Mode
Perform the following steps to evaluate the
MAX2566/MAX2572 in the GSM 1900 mode:
1) Verify shunts JU23–JU26 and JU33 positions with
Table 4.
2) With MAX2560/MAX2566/MAX2572 control software
active in the REG screen, use Tables 2 and 3 to set
the operating mode to GSM 1900 mode.
Layout Considerations
INTF2300 SPI Interface Board
The INTF2300 interface board is used to interface 3wire SPI protocol from a PC’s parallel port to the EV kit.
This board level translates 5V logic from the PC to VCC
of the EV kit (typically, this is 2.85V logic). The INTF2300
also provides buffering and EMI filtering. Its absolute
maximum supply voltage is 4.6V, limited by the breakdown of the buffer IC. The recommended operating
supply voltage range is +2.7V to +3.6V.
Table 3. MAX2572 Register Settings
REGISTER (hex)
WCDMA
GSM 900
DCS 1800
FRAC_SYNTH
FRAC
GSM 1900
070778
0B075B
0B0774
0B077B
062763
089D8A
027627
0D89D9
IF_N
000302
000244
000244
000244
IF_SYNTH
00D80D
00D80D
00D80D
00D80D
OPCTRL
0DF77F
0D876F
0D876F
0D876F
CONFIG
07A103
07BD07
04BD07
04BD0F
TEST
000000
000000
000000
000000
Table 4. GSM Jumper Settings
MODE
JU23
JU24
JU25
JU26
JU33
GSM 900
CLOSE
LOGSM1
LOW
LOW
LOW
DCS 1800
CLOSE
LOGSM1
LOW
HIGH
HIGH
GSM 1900
CLOSE
LOGSM1
HIGH
HIGH
HIGH
______________________________________________________________________________________
11
Evaluate: MAX2560/MAX2566/MAX2572
DCS 1800 Mode
Perform the following steps to evaluate the
MAX2566/MAX2572 in the DCS 1800 mode:
Evaluate: MAX2560/MAX2566/MAX2572
MAX2560/MAX2566/MAX2572 Evaluation Kits
Figure 1. MAX2560 EV Kit Schematic (Sheet 1 of 3)
12
______________________________________________________________________________________
MAX2560/MAX2566/MAX2572 Evaluation Kits
Evaluate: MAX2560/MAX2566/MAX2572
Figure 1. MAX2560 EV Kit Schematic (Sheet 2 of 3)
______________________________________________________________________________________
13
Evaluate: MAX2560/MAX2566/MAX2572
MAX2560/MAX2566/MAX2572 Evaluation Kits
Figure 1. MAX2560 EV Kit Schematic (Sheet 3 of 3)
14
______________________________________________________________________________________
MAX2560/MAX2566/MAX2572 Evaluation Kits
Evaluate: MAX2560/MAX2566/MAX2572
Figure 2. MAX2566 EV Kit Schematic (Sheet 1 of 3)
______________________________________________________________________________________
15
Evaluate: MAX2560/MAX2566/MAX2572
MAX2560/MAX2566/MAX2572 Evaluation Kits
Figure 2. MAX2566 EV Kit Schematic (Sheet 2 of 3)
16
______________________________________________________________________________________
MAX2560/MAX2566/MAX2572 Evaluation Kits
Evaluate: MAX2560/MAX2566/MAX2572
Figure 2. MAX2566 EV Kit Schematic (Sheet 3 of 3)
______________________________________________________________________________________
17
Evaluate: MAX2560/MAX2566/MAX2572
MAX2560/MAX2566/MAX2572 Evaluation Kits
Figure 3. MAX2572 EV Kit Schematic (Sheet 1 of 3)
18
______________________________________________________________________________________
MAX2560/MAX2566/MAX2572 Evaluation Kits
Evaluate: MAX2560/MAX2566/MAX2572
Figure 3. MAX2572 EV Kit Schematic (Sheet 2 of 3)
______________________________________________________________________________________
19
Evaluate: MAX2560/MAX2566/MAX2572
MAX2560/MAX2566/MAX2572 Evaluation Kits
Figure 3. MAX2572 EV Kit Schematic (Sheet 3 of 3)
20
______________________________________________________________________________________
MAX2560/MAX2566/MAX2572 Evaluation Kits
Evaluate: MAX2560/MAX2566/MAX2572
1.0"
1.0"
Figure 4. MAX256_/MAX257_ EV Kit Component Placement
Guide—Component Side
1.0"
Figure 5. MAX256_/MAX257_ EV Kit Component Placement
Guide—Solder Side
1.0"
Figure 6. MAX256_/MAX257_ EV Kit PC Board Layout—
Component Side
Figure 7. MAX256_/MAX257_ EV Kit PC Board Layout—
Ground Plane
______________________________________________________________________________________
21
Evaluate: MAX2560/MAX2566/MAX2572
MAX2560/MAX2566/MAX2572 Evaluation Kits
1.0"
1.0"
Figure 8. MAX256_/MAX257_ EV Kit PC Board Layout—Inner
Layer
Figure 9. MAX256_/MAX257_ EV Kit PC Board Layout—Solder
Side
Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are
implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.
22 ____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600
© 2004 Maxim Integrated Products
Printed USA
is a registered trademark of Maxim Integrated Products.