nb3x6x1xxg16qfnevk nb3x6x1xxg16qfn omniclock … · jumper no u11 u12 u13 u14 u15 u16 dial display...
TRANSCRIPT
© Semiconductor Components Industries, LLC, 2016
January, 2016 − Rev. 11 Publication Order Number:
EVBUM2308/D
NB3x6x1xxG16QFNEVK
NB3x6x1xxG16QFN
OmniClock Evaluation
Kit�Manual
Devices Supported• NB3H63143G (QFN16)
• NB3V63143G (QFN16)
IntroductionThe NB3x6x1xxG, which is a member of the OmniClock
family, is a versatile user programmable clock generatordesigned by ON Semiconductor with customer experiencein mind. These devices are tailored to fit in to an extensivearray of applications including wearable technology, smartphones, digital cameras, E−books, portable electronics, andInternet of Things. The NB3H designated parts are poweredby 3.3 V and 2.5 V supplies while NB3V parts support 1.8V operation.
These devices are One Time Programmable (OTP), lowpower PLL based clock generators that accept fundamentalmode parallel resonant crystals of up to 50 MHz or a singleended LVCMOS/LVTTL reference clock input of up to200 MHz. The outputs can be configured as either threesingle ended LVCMOS/LVTTL outputs or a combination ofone single ended output and one differentialLVPECL/LVDS/HCSL/CML output. The generated clockoutput’s frequency can range between 8 kHz to 200 MHz.
Other programmable parameters include internal crystalload capacitor, drive strength for LVCMOS outputs, outputfrequency modulation controls (type, depth, modulationrate), output phase inversion, and PLL bypass mode. Thedevices are fully functional between −40°C to +85°C.
DescriptionNB3x6x1xxG16QFNEVK is an evaluation kit offering a
convenient solution for evaluating QFN16 devices.Included are one main board, a daughter board, and a USBcable. The main board and daughter board are 4 layer boardswith dedicated power and GND planes.
The daughter board plugs directly on to the main boardusing four 4−pin header connectors. These connectors routethe signal, power and ground to the device on the daughterboard. The two boards correctly plug into one another inonly one orientation ensuring proper pin alignment. Thedaughter board has a 16QFN socket to test NB3x6x1xxGdevices. A view of the main board with the 16QFN daughterboard is shown in Figure 1 and 2.
The Clock Cruiser Software is the GUI softwaredeveloped to be used with this evaluation kit, and can bedownloaded for free from www.onsemi.com. It allows theuser to set programmable parameters and generate solutionsthat fit application needs. These solutions can then beprogrammed in to device’s OTP memory or be temporarilywritten into device registers for evaluation. For moreinformation on using the GUI, refer to Clock Cruiser UserGuide.
Figure 1. 45� View of Main Board with 16QFNDaughter Board
Figure 2. Top View of Main Board with 16QFN
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EVAL BOARD USER’S MANUAL
NB3x6x1xxG16QFNEVK
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Figure 3. Main Board
Figure 4. 16QFN Daughter Board
NB3x6x1xxG16QFNEVK
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USING THE EVALUATION KIT
Setting Up for ProgrammingSkip this section if the device has been programmed already
1. Securely connect the daughter board to the mainboard by lining up all four 4−pin connectors (J8,J12, J13, J21). The daughter board can only be
plugged in to the main board correctly in oneorientation.
2. Make sure that all SMA cables are unpluggedfrom both boards.
3. Set main board to initial position:a. Jumpers:
use shorting links to provide connection as inthe table below: (pin 1 is indicated by a circle)
Jumper No J26 (SEL1) J27 (SEL0) J24 (OE2) J25 (OE1) J28 (OE0) J29 (PD#) J19
Pin connection 2 and 3 2 and 3 2 and 3 2 and 3 2 and 3 OPEN 2 and 3
b. Switches: slide the switches to the position as in the tablebelow: (ON is indicated in lettering on switch’scase)
Switch No SW1 SW2
Position ON ON
c. Rotary Switches: turn knob on all rotary switches as shownbelow: (the position number will be displayedin a slit on the knob)
Jumper No U11 U12 U13 U14 U15 U16
Dial Display 1 1 1 1 1 1
4. Set daughter board to initial position:a. Jumpers:
use shorting links to provide connection as inthe table below: (pin 1 is indicated by a circle)
Jumper No J31 (SEL1) J30 (SEL0) J29 (OE2) J28 (OE1) J27 (OE0) J26 (PD#)
Shorting Link Position OPEN OPEN OPEN OPEN OPEN OPEN
b. Switches: slide the switches to the position as in the tablebelow: (ON is indicated in lettering on switch’scase)
Switch No SW1 SW2 SW3
Position ON ON ON
c. Make sure that the Crystal is in its holder.
d. Place NB3H63143G in the DUT socket U2. Forpin 1 alignment refer to Figure 2
Powering Up5. Download and install Clock Cruiser GUI Software
to a computer that meets or exceeds minimumrequirements found on Clock Cruiser User Guide.
6. Connect the evaluation kit to an USB port usingthe included USB cable. An LED next to the USBconnector will glow red, indicating +5 V supply isavailable to the module.
Programming the Device : OTP or Temporary Register
Skip this section if the device has been programmed already7. Run the Clock Cruiser GUI software by clicking
on the desktop short cut or from the start menu. Ablue LED (D9) will light up when a connection isestablished. This will periodically blink as activityis conducted.
8. Follow the Clock Cruiser User Guide for detailedinstruction on navigating through the program.
9. In the Device Programming Screen, a tableindicates the summary of configurations that wereselected. Verify that the Hardware Connectedindicator is green and that there is no error in thelog. Program the device permanently by selecting[Program OTP Memory]. To write to deviceregisters, click [Write to Registers]. In this case,when the evaluation kit is powered down (i.e.when the USB cable is unplugged) the registermemory will be reset.
NB3x6x1xxG16QFNEVK
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Powering up the DUT10. Set VDD and then VDDO for each output by using
the four rotary switches (U11, U12, U13, U14) tomatch device configuration. Make sure that
VDDOs are less than or equal to VDD. Thefollowing table shows which on−board LDOvoltage is selected depending on the switchposition (see table):
Rotary Switch Line
Voltage for Each Switch Position
1 2 3 4
U11 VDD +3.3 V
+2.5 V +1.8 V external sourceU12 VDDO0
VDDU13 VDDO1
U14 VDDO2
Connect Input Clock Source11. Depending on the programmed configuration,
select one of the following input clock sources:a. Crystal: The evaluation kit comes equipped
with a 25 MHz fundamental crystal on thedaughter board. If a different frequency crystal(accepts 3 M to 50 MHz) is to be used, placethis crystal in its holder.
b. External Reference Clock: To use an externalreference clock (3 M to 200 MHz), connect theclock to J31 SMA connector on the main board.
Set Output Termination12. The outputs from DUT are routed to three SMA
connectors on the main board (J7, J9, J23) toprovide CLK0, CLK1, and CLK2 respectively. Byturning the rotary switches U15 and U16, theboard will automatically terminate theprogrammed output level for CLK0 and CLK1,according to this table:
Rotary SwitchPosition
U15 output for CLK0
U16 output for CLK1
1 LVCMOS LVCMOS
2 HCSL HCSL
3 LVPECL LVPECL
4 CML CML
5 LVDS LVDS
Since CLK2 output only supports LVCMOS, thetermination is fixed.
Interfacing the Output to Equipment13. To monitor the output from the main board using
test equipment such as an oscilloscope, either useSMA connectors or jumpers: To use the jumpers (J33, J34, J35), use a high−zprobe to monitor the outputs with the liveconnected to jumper pin marked 0, and the otherpin connected to ground. This can be used formonitoring all output types.To use the SMA connectors (J7, J9, J23), usehigh−z termination on the scope and the outputscan be monitored for all types.
Controlling the Device14. Use control pins OE[2:0] (J24, J25, J28) to
enable or disable each output individually. The logic state of each signal corresponds to theLEDs (D4, D5,D8) on the main board: the LEDis lit when ‘high’ and off when ‘low’.
15. The pins SEL[1:0] (J26, J27) are used to select oneof the four programmed solutions in the device’sOTP memory. The logic state of each signal corresponds to theLEDs (D6, D7) on the main board: the LED is litwhen ‘high’ and off when ‘low’.
16. PD# (J29 on main board, J26 on daughter board) isused to power down the device. The logic state ofthe signal corresponds to the LED (D9) on themain board: the LED is lit when ‘high’ and offwhen ‘low’.
17. If the configuration written into the temporaryregister must to be changed, re−initialize thehardware setup by returning to step 1 of thismanual. Then, either return to the previous screenon the GUI with the [back] button or restarting theprogram.Note that even when the part’s OTP memory hasbeen programmed, device’s registers can be usedto write other solutions for evaluation.
NB3x6x1xxG16QFNEVK
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Remember:18. Always make sure that while communicating
between the GUI and the device:On the main boarda. Switches SW1 and SW2 are in ON positionb. Rotary switches U15 and U16 are in
position ‘1’
c. All SMA cables, if connected, are detachedfrom equipment
On the daughter boardd. Switches SW1, SW2 and SW3 are set to ON
positione. All SMA cables, if connected, are detached
from equipment
APPENDIX
Unpopulated Boards
Figure 5. Main Board Top View
Figure 6. Main Board Bottom View
Figure 7. QFN16 Daughter Board Top View
Figure 8. QFN16 Daughter Board Bottom View
NB3x6x1xxG16QFNEVK
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Main Board Schematic
Figure 9. Main Board Schematic (1 of 3)
J16
SM
DH
eade
r 2−
pin
1 2
VD
D
R10
2
NP
_1K
1 2
R10
4
1K
1 2
3V3_
FT
−+
U17
B
5 67
8 4
3V3_
FT R
122
1K
1 2
3V3_
FT R
123
1K
1 2
3V3_
FT R
124
1K
1 2
3V3_
FT R
125
1K
1 2
SE
L11
SE
L11
SE
L00
thick trace
R89
10K
12
InP
in13
VD
D
J36
SM
DH
eade
r 2−
pin
12
TP
271
J37
SM
DH
eade
r 2−
pin
12
TP
41
TP
171
J23
SM
A J
ack,
End
Lau
nch
CLK
2
R77
82E
1%
12
thick trace
M1
C5
4pF
_NP
1 2
VD
D
R90
0E1 2
R58
10K
12
Pin
5
R84
0E
12
D8
LG L
29K
−F2J
1−24
−Z
R76
10K
12
VD
D
R93
0E1 2
Pin
6
R87
0E
12
US
B_5
V
VD
D
D5
LG L
29K
−F2J
1−24
−Z
D4
LG L
29K
−F2J
1−24
−Z
J20
SM
DH
eade
r 2−
pin
12
R61
10K
12
VD
D
R22
10K
12
R66
1K
12
PD
#_P
RE
R23
2.2K
12
R47
0E_N
P
1 2
R27
0E
_NP
12
J15
SM
DH
eade
r 2−
pin
12
R92
0E1 2
Pin
15
C4
4pF
_NP
1 2
R86
0E
12
RE
F
J9S
MA
Jac
k, E
nd L
aunc
h
CLK
1_S
MA
VD
DO
_1 R12
784
E_N
P
12
R12
812
5E_N
P
12
No other signals should be close to Xtal and Xin/ XOUT. No GND
plane near Xtal and Xin/ XOUT.
Minimum trace
Minimum trace
VD
DD
6
LG L
29K
−F2J
1−24
−Z
D7
LG L
29K
−F2J
1−24
−Z
D9
LB Q
39G
−L2N
2−35
−1
VD
DV
DD
2P
C1
4pF
_NP
1 2
J7
SM
A J
ack,
End
Lau
nch
CLK
0_S
MA
RE
F
VD
DO
_1 R13
012
5E_N
P
12
R12
984
E_N
P
12
M3
NT
S21
01P
/ON
1P
2P
Q11
NT
A41
53N
T1G
1
23
M4
Q12
NT
A41
53N
T1G
1
23
Q13
NT
A41
53N
T1G
1
23
Q15
NT
A41
53N
T1G
1
23
XO
UT
R5
0E
12 C
LK0_
SM
A
R10
0E
12
CLK
1_S
MA
J26
12
3
SEL1
Tes
tclk
sdat
a sclk
GN
D_V
DD
O
SE
L1
OE
2
OE
1
OE
0
SE
L0
InP
in9
R8
0E_N
P
1 2
InP
in9
J2
12
3
VD
DPin9_I/P
Pin
16
J27
12
3
SEL0
J13
4 H
EA
DE
R
1 2 3 4
Tes
tdat
a
GU
I_P
D#
J12
4 H
EA
DE
R
1234
J8 4 H
EA
DE
R
1234
J21
4 H
EA
DE
R
1234
GN
D_V
DD
O
GN
D_V
DD
O
GN
D_V
DD
O
InP
in10
R32
0E_N
P
1 2
Place all resistors as close as possible to each connetion on U10. Keep trace lenght from middle headers to SMA launch
smallest possible. Place U10 between CLK0 and CLK1 traces with equal length of individual terminations on ports 1 and 2.
Pin10_I/P
VD
DJ1
7
12
3
GN
D_V
DD
O
M1
M13M14M15M16
M6M5
M4
M3
M2
M11
M10
M9
M8M7
U11
S−2
151
A51
1
22
33
44
M12
REFERENCE
VDD
CLK
1C
LK0
J31
SM
A J
ack,
End
Lau
nch
CLK
IN
VD
D_E
XT
3V3
1V8
2V5
VD
D
R45
0E_N
P
1 2
J30
12
3
Pin13_I/P
R13
6
10K
1 2
U12
S−2
151
A51
1
22
33
44
Note: Use_ 0.01uF_C2 and
C3_for_AC_coupling_only
R11
6 0E
12
1.8V
2P5
R11
7 0E
12
Overlay SMT pads 1, 2 on SMD pads 1 and 3.
Overlap 2−pin jumper and resistor. Place jumper
one pin on or near crystal.
VDD
EXT
2.5V
1V8
VD
DO
_0_E
XT
Out
1
R15
0
10K
1 2
VD
DO
_0V
DD
O_0
Note: Default value of
R4,R3,R25,R30 for VDDO_1=3.3V
R85
0E
12
R91
0E1 2
Q16
NT
A41
53N
T1G
1
23 U13
S−2
151
A51
1
22
33
44
VD
DO
_1_E
XT
1V8
2P5
VD
D
PD
#_P
RE
R10
0
0E1 2
U14
S−2
151
A51
1
22
33
44
R10
10E
12
2P5
Q17
NT
A41
53N
T1G
1
23
VD
DO
_2_E
XT
1V8
VD
D
Close to DUT
pin1 and
connector pin 1
(M1).
VD
DO
_1
Pin
16
VD
DO
_2V
DD
O_2
LED when ON = Input High
LED when OFF = Input Low
R13
2_N
P0E
12
R13
3
0E
_N
P1%
12
CLK
0O
ut0
R13
4
0E_N
P1%
12
R13
5_N
P0E
12
Out
1C
LK1
R94
0E1 2
R88
0E
12
Q14
NT
A41
53N
T1G
1
23
Pin
7
R1
48
8.2K
EPAD must be
part of GND_VDDO
plane.
TP
2_N
P VD
DO
_0
1
VD
DO
_0
TP
5_N
P VD
DO
_1
1
C2
0.01
uF_N
P_M
ount
Res
isto
r_0E
VD
DO
_1
R26
0E
_NP 1
2
R24
0E
12
PD
#
C3
0.01
uF_N
P_M
ount
Res
isto
r_0E
M3
TP
6_N
P VD
DO
_2
1
VD
DO
_2
R17
0E
_NP 1
2O
E0
M2
NT
S21
01P
/ON
R16
0E
12
M5
M1
NT
S21
01P
/ON
R19
0E
_NP 1
2O
E1
R15
0E
12
M6
J32
12
3
2A 2E2D2C2B
VD
DO
_1 1C
R2
50E
1 2
R18
0E
_NP 1
2
R21
50E
12
OE
2
R14
0E
12
CML
VD
DO
_1
2C
M7
R60
0E_N
P
12
CML
R62
50E
1 2
RE
F
1DLVDS
2D
R59
50E
1 2
LVDS
VD
DO
_1
Mount 50E for
LVPECL (VTT)
NP for
LVPECL (VTT)
RE
F
R43
0E
12
R42
0E
_NP 1
2
R4
84E
1 2R3
125E
1 2
SE
L1
R30
84E
1 2
LVPECL
M15
R25
125E
1 2
VD
DO
_1
R36
50E
12
NP for
LVPECL (VTT)
Mount 50E for
LVPECL (VTT)LVPECL
RE
F
1B
LVPECL
HCSL
OT
P_W
R
2B
No Connection/ LVCMOS
No Connection/ LVCMOS
LVDS
CML
Q9A
NT
LJD
3115
P
S1
1
G12
D1
6
R38
0E
_NP 1
2
VD
D
SE
L0
Xin
R39
0E
12
M16
Xin
R37
50K
12
R1
50E
1 2
R44
0E
_NP 1
2
GN
D_V
DD
O
1A
R46
0E
12
HCSL
HCSL
GN
D_V
DD
O
2A
R20
50E
1 2
M13
Out
0
U2
NB
3H63
143G
_NP
CLK
09
CLK
110
CLK
213
XIN
1
XO
UT
2
PD
#3
OE
05
OE
16
OE
27
VDDO_08
VDDO_111
VDDO_214
VDD12 GND
4
EPAD17
SE
L115
SE
L016
R9
0E
12
R53
0E
12
R7
0E
12
TP
261
VD
D
Ext
clk
VD
D
Pin
5
VD
D
Y2
SM
D X
TA
L_N
P
1
2
3
4
TP
251
VD
D
C43
18pF_NP
Y1
SM
T X
TA
L_25
MH
z
1 2
C25
18pF
_NP
Pin
6
VD
DPD
#_P
RE
TP
241
R79
10K
12
R80
10K
12
VD
D
R81
10K
12
PD
#
Pin
7
VD
D
M12
VD
D
TP
231
VD
D
VD
D
VDDO_2
M14
VDDO_0 M8
VDDO_1
M11
Pin
15
R52
50E
_NP
12
J29
12
3
PD#
J28
12
3
R40
50E
1 2
TP
221
R14
9
0E
12
R50
50K
12
VD
D
Q9B S
24 G2
5
D2
3
OE0
J33
SM
DH
eade
r 2−
pin
12
RE
F
Xin
J25
12
3
3V3_
FT
OE1
J24
12
3
R31
82E
1%
12
thick trace
OE2
OT
P_W
R
VD
D
VD
D
RE
F
J34
SM
DH
eade
r 2−
pin
12
SE
L00
Function Mode
Prog. Mode /
R13
0E
_NP 1
2
R12
0E
12
CLK
0
M9
R29
0E
_NP 1
2
R28
0E
12
CLK
1
”GUI_SEL_XIN” CONTROLS THE DEMUX TO CONNECT THE
DEVICE WITH PROGRAMMING SIGNALS FROM THE GUI. WHEN
SELECTED, ALL FTDI CONTOL PINS ARE CONNECTED TO
DEVICE, WHEN DE−SELECTED, DEVICE RESUMES THE
FUNCTION MODE.
M10
U16
SS
−10−
15S
P−L
E
IN_C
11
A2
B3
C4
D5
E6
IN_C
27
NC8
U15
SS
−10−
15S
P−L
E
IN_C
11
A2
B3
C4
D5
E6
IN_C
27
NC8
1E1D1C1B1A
LVDS
CML
LVPECL
HCSL
1P
TP
29_N
P
1
R51
0E
_NP
12
XO
UT
R6
50E
_NP
1 2
R49
0E
12
M1
R13
1 0E
12
Clk
in
R11 50
E_N
P
1 2
TP
30_N
P
1
TP
31_N
P
1
TP
32_N
P
1
GU
I_S
EL_
XIN
Connectors to mount daughtercards around the footprint
of NB3H63143G part footprint
US
B_5
V
GU
I_S
EL_
XIN
SW
1
SD
A01
H1S
BD
12
SW
2
SD
A01
H1S
BD
12
U1
AD
G32
57B
RQ
Z
1B1
2
1B2
3
2B1
5
2B2
6
3B1
11
3B2
10
4B1
14
4B2
13
1A4
2A7
3A9
4A12
VCC16
GND8
S1
BE#15
sdat
a
sclk
−+
U17
A
NC
S22
20A
3 21
8 4
SEL1
OE2
OE1
OE0
2.5V/3.3V
1.8V
PD#
SEL0
R1
38
22
K
R1
37
22
K
Q6
50
C0
2C
H1
23
R1
39
47
K
Q7
50
C0
2C
H
1
23
R1
40
1K
R1
42
1K
R1
41
1K
R1
44
33
K
R1
43
1K
R1
45
33
K
LED
1
SML−P24MUW
1
2 3
4
2V5
J35
SMDHeader 2−pin
1 2
GR
EE
NR
ED
R1
46
3.3K
GU
I_S
EL_
XIN
GN
D_V
DD
O
Tes
tclk
Ext
clk
Clk
in
TP
7_N
P VD
DO
_0_E
XT
1
TP
8_N
P VD
DO
_1_E
XT
1T
P9_
NP V
DD
O_2
_EX
T
1
R95
NP
_1K
1 2
VDD
U3
AD
G32
57B
RQ
Z
1B1
2
1B2
3
2B1
5
2B2
6
3B1
11
3B2
10
4B1
14
4B2
13
1A4
2A7
3A9
4A12
VCC16
GND8
S1
BE#15
R96
NP
_1K
1 2
R97
NP
_1K
1 2
GU
I_O
E0
US
B_5
V
GU
I_O
E1
GU
I_O
E2
2P5
US
B_5
V
R14
7
0E_N
P1
2
R98
NP
_1K
1 2
R99
NP
_1K
1 2
R10
3
1K
1 2
3V3_
FT
NB3x6x1xxG16QFNEVK
www.onsemi.com8
Figure 10. Main Board Schematic (2 of 3)
D2
LG L
29K
−F
2J1−
24−
Z
SE
L00
3V3_
FT
GU
I_S
EL_
XIN
R65
10K
12
SE
L11
Q1
MM
BT
2907
ALT
1G
32
1
OT
P_W
R
sdat
a
R70
10K
1 2
R67
10K
1 2
R71
10K
1 2
R72
10K
1 2
Tes
tdat
a
Tes
tclk
3V3_
FT
D1
P13
488C
T−
ND
H3
1H1
1 H2
1H4
1 H5
1
R12
6
1K1 2
Green Color
Amber Color
3V3_
FT
R68 1
0K
12
R69 1
0K
12
VD
D
R10
50E
12
R10
60E
12
R10
70E
12
R10
80E
12
R10
90E
12
SE
L00
SE
L00
R11
00E
12
SE
L11
InP
in10
R11
10E
12
SE
L11
R11
20E
12
InP
in9
R11
30E
12
R11
40E
12
InP
in13
R11
50E
12
OT
P_W
R
GU
I_S
EL_
XIN
GU
I_P
D#
Tes
tclk
Tes
tdat
a
sclk
sdat
a
L1 FB
600
R/0
.5A
C35
10nF
16V
1 2
R64
1K1 2
Q18
NT
A41
53N
T1G
1
23
3V3_
FT
C52
100n
F
10V
1 2
U4
FT
2232
H
TC
K16
TD
I17
TD
O18
TM
S19
GP
IOL0
21
GP
IOL1
22
GP
IOL2
23
GP
IOL3
24
BD
BU
S0
38
BD
BU
S1
39
BD
BU
S2
40
BD
BU
S3
41
BD
BU
S4
43
BD
BU
S5
44
BD
BU
S6
45
BD
BU
S7
46
BC
BU
S0
48
BC
BU
S1
52
BC
BU
S2
53
BC
BU
S3
54
BC
BU
S4
55
BC
BU
S5
57
BC
BU
S6
58
BC
BU
S7
59
VC
CIO
120
VC
CIO
231
VC
CIO
342
VC
CIO
456
VP
LL9
VP
HY
4
AG
ND
10
VR
EG
IN50
VR
EG
OU
T49
VC
OR
E1
12
VC
OR
E2
37
VC
OR
E3
64
DM
7
DP
8
GN
D1
1
GN
D2
5
GN
D3
11
GN
D4
15
GN
D5
25
GN
D6
35
GN
D7
47
GN
D8
51
TE
ST
13
EE
CS
63
EE
CLK
62
EE
DA
TA
61
RE
F6
RE
SE
T#
14
SU
SP
EN
D#
36
PW
RE
N#
60
OS
CI
2
OS
CO
3
GP
IOH
734
GP
IOH
633
GP
IOH
532
GP
IOH
430
GP
IOH
329
GP
IOH
228
GP
IOH
127
GP
IOH
026
TH
_PA
D
65
US
B_R
ST
#
TP
18
US
B 5
V1
R11
80E
12
R55
10K
1 2
R56
10K
1 2
US
B_5
V
R54
10K
1 2
R11
90E
12
InP
in9
InP
in10
R12
00E
12
SE
L00
R12
10E
12
SE
L11
R73
1.5K
12
J22
US
B
5
1 2 3 4
6
C7
30pF
12
3V3_
FT
C6
30pF
12
C44
100n
F
1 2
C46
100n
F
1 2
LED
_RE
D1
US
B
12
R48
12K
1%
12
R82 2.2K
12
D3
PA
CD
N00
4
1
2 3
4
US
B_D
M
FB
1
600
12
US
B_D
P
C C
Y3
12 M
Hz
21
43
FB
2
600
12
U5
CA
T93
C56
YI−
GT
3CS
1
DO
UT
4
NC
26
GN
D5
DIN
3
CLK
2N
C1
7
VC
C8
C37
100n
F
1 2
C36
100n
F
1 2
C45
100n
F
1 2
C39
4.7u
F6.
3V
1 2
C49
100n
F
1 2
C42 4.7u
F6.
3V
1 2
C47
4.7u
F6.
3V
1 2
C48
100n
F
1 2
3V3_
FT
C50
100n
F
1 2
3V3_
FT
C40
100n
F
1 2
3V3_
FT
R74
10K
1 2
R78
10K
1 2VD
D
R41 10K
12
C38
10nF
16V
1 2
R35
0E1
2
R34
0E1
2
sclk
US
B_5
V
3V3_
FT
R33 0
E
12
GU
I_S
EL_
XIN
GU
I_P
D#
InP
in13
GU
I_O
E2
GU
I_O
E1
GU
I_O
E0
R63
0E1 2
NB3x6x1xxG16QFNEVK
www.onsemi.com9
Figure 11. Main Board Schematic (3 of 3)
C18
1uF
10V
1 2
TP
14
2V5
1
2V5
C17
4.7u
F10
V
1 2
C19
100n
F
1 2
U8
NC
P46
88D
SN
25T
1G,
2.5V
IN1
OU
T5
GN
D2
EN
3
NC
4
C16
1uF
10V
1 2
TP
11
1V8
1
1V8
C14
4.7u
F10
V
1 2
C15
100n
F
1 2
U7
NC
P46
88D
SN
18T
1G,
1.8V
IN1
OU
T5
GN
D2
EN
3
NC
4
US
B_5
V
C33
0.01
uF
C32
0.1u
F
C58
1uF
10V
1 2
TP
21
3V3_
FT
13V
3_F
T
3V3_
FT C
594.
7uF
10V
1 2
C57
100n
F
1 2
NEAR DUT PIN
U9
NC
P46
88D
SN
33T
1G,
3.3V
IN1
OU
T5
GN
D2
EN
3
NC
4
VT
T
C24
0.1u
F
C23
0.01
uF
NEAR DUT PIN
C27
2.2u
F
C34
0.01
uF
NEAR DUT PIN
TP
20
GN
D_F
1T
P28
GN
D1
VD
D_E
XT
+C
53
22uF
_NP
C51
0.1u
F_N
P
FB
13
BE
AD
TP
1
GN
D_V
DD
O1
FB
5
BE
AD
FB
8
BE
AD
FB
3
BE
AD
FB
11
BE
AD
J19
12
3thick trace
thick trace
thick trace
GN
D_V
DD
O
C60
0.1u
F
RE
F GN
D_V
DD
O
FB
10
BE
AD
FB
4
600
12
FB
7
BE
AD
FB
6
BE
AD
GN
D_V
DD
O
FB
12
600
12
GN
D5
C28
0.01
uF
+C
31
22uF
VD
D_E
XT C29
0.1u
F
VD
DR
75
0E
12
C20
0.1u
F
C21
0.01
uF
NEAR DUT PIN
FB
9_N
P
600
12
C54
0.01
uF
GN
D6
+C
55
22uF
VT
T
C56
0.1u
F
VT
T1
R83
0E
12
C22
2.2u
F
VD
DO
_EX
T
VT
T
GN
D4V
DD
O_0
GN
D1
+C
41
22uF
VD
DO
_1
C26
2.2u
F
GN
D3V
DD
O_2
C30
0.1u
F
GN
D2
+C
8
22uF
C10
0.01
uF
VD
DO
_EX
T1
VD
DO
_EX
T
R57
0E
12
C9
0.1u
F
C12
1uF
10V
1 2
TP
3
3V3
1
3V3
C13
4.7u
F10
V
1 2C
11
100n
F
1 2
U6
NC
P46
88D
SN
33T
1G,
3.3V
IN1
OU
T5
GN
D2
EN
3
NC
4
TP
19
1
VT
T
thick trace
RE
F
US
B_5
V
RE
F
VDDO_1
VD
DO
_1
GND
LVPECL (VTT reference) = VTT
LVPECL (Thevenin’s network) = GND
HCSL = GND
CML = VDDO_1
LVDS = FLOAT/ NO SHORT
VTT
VTT
GND
REF
VDDO_1
VD
DO
_EX
T
NB3x6x1xxG16QFNEVK
www.onsemi.com10
16QFN Daughter Board Schematic
Figure 12. 16QFN Daughter Board Schematic
D1−
EP
AD
_Pla
ne
D1−
EP
AD
_Pla
ne
R69
0E_N
P_0
603
12
R68
0E_N
P_0
603
12
R70
0E_N
P_0
603
12
R71
0E_N
P_0
603
12
D1−
VD
DO
_0D
1−V
DD
O_1
D1−
VD
DO
_1D
1−V
DD
O_2
D1−
VD
DO
_2D
1−V
DD
O_0
D1−
VD
DD
1−V
DD
O_0
SW
1
SD
A01
H1S
BD
12
XTAL
Prog./ Refclk
J5CO
NN
RC
PT
4
1234
J7
CO
NN
RC
PT
4
1 2 3 4
J6
CO
NN
RC
PT
4
1
2
3
4
J8
CO
NN
RC
PT
4
1
2
3
4
Y3
SM
D X
TR
L_N
P
1
2
3
4
Y4
SM
T X
TR
L_25
MH
z
1 2
C11
30pF
_NP
12
C12
30pF
_NP
12D
1−G
ND
_Pla
ne
NB3H63143G
U1
16L QFN
U2
XIN
1
XO
UT
2
PD
#3
GN
D4
OE05
OE16
OE27
VDDO_08
CLK
09
CLK
110
VD
DO
_111
VD
D12
CLK213
VDDO_214
SEL115
SEL016
TH17
SEL0 SEL0
SEL1
D1−
VD
DO
_1
D1−
GN
D_P
lane
D1−
EP
AD
_Pla
ne
D1−
VD
DO
_2
D1−
VD
DO
_0
C13
4.7u
F
C14
10uF
D1−
VD
DO
_0
C16
10uF
C15
4.7u
F
D1−
VD
DO
_1
C17
4.7u
F
C18
10uF
D1−
VD
DO
_2
C19
4.7u
F
D1−
GN
D_P
lane
C20
10uF
D1−
VD
DL3
FB
MJ2
125H
S25
0NT
9
L4
FB
MJ2
125H
S25
0NT
9
D1−
VD
D
R49
0E_N
P1
2
R48
0E1
2
D1−
CLK
1
R51
0E_N
P
12
C21
4pF_NP
1 2
J9
SMA Jack, End Launch
D1−
CLK
0R
5284
E_N
P
12
VD
D
1
VD
DO
2
1
R72
0E_N
P
12
J32
Hea
der
2−pi
n
1 2
R73
0E_N
P
12
D1−
GN
D_P
lane
VD
DO
0
1
VD
DO
1
1
GN
D 1
GN
DO 1
+
C22
1uF
_NP
PD
#
R57
0E
12
R58
0E
1 2
OE0
OE1
OE2
R53
125E
_NP
12
+
C23
0.1uF_NP Mount_Resistor_0E
R54
150E
_NP
12
SW
2
SD
A01
H1S
BD
12
D1−
CLK
0
D1−
CLK
0
SW
3S
DA
01H
1SB
D
12
Close to DUT
D1−
VD
DO
_1
R55
0E1
2
C24
4pF_NP
1 2
J10
SM
A J
ack,
End
Lau
nch
D1−
CLK
1
R56
84E
_NP
12
+
C25
0.1uF_NP_Mount_Resistor_0E
R59
125E
_NP
12
R60
150E
_NP
12D
1−C
LK1
D1−
SM
A−
GN
D
Close to DUT
D1−
VD
DO
_1
C26
4pF
_NP
1 2
J11
SM
A J
ack,
End
Lau
nch
D1−
CLK
2D
1−C
LK2
D1−
SM
A−
GN
D
D1−
CLK
2
J26
1 2 3
D1−
VD
D
PD
#
D1−
GN
D_P
lane
OE
0
J27
1 2 3
D1−
VD
D
D1−
GN
D_P
lane
D1−
VD
D
OE
1
J28
1 2 3
D1−
GN
D_P
lane
J29
1 2 3
D1−
VD
D
OE
2
D1−
GN
D_P
lane
D1−
VD
D
SE
L0
J30
1 2 3
D1−
GN
D_P
lane
D1−
VD
D
SE
L1
J31
1 2 3
D1−
GN
D_P
lane
J12
SM
A J
ack,
End
Lau
nch
D1−
RE
FC
LK
D1−
EP
AD
_Pla
ne
R61
0E
1 2
R62
0E
12
D1−
RE
FC
LK
R63
50E
_NP
12
D1−
RE
FC
LK
Close to
DUT −
atleast
0.1uF
Close to DUT
R67
100E
_NP
12
D1−
EP
AD
_Pla
ne
J33
Hea
der
2−pi
n
12
J34
Hea
der
2−pi
n
12
J35
Hea
der
2−pi
n
12
D1−
SM
A−
GN
D
J36
Hea
der
2−pi
n
12
J37
Hea
der
2−pi
n
12
L6
FB
MJ2
125H
S25
0NT
9
D1−
SM
A−
GN
D
NB3x6x1xxG16QFNEVK
www.onsemi.com11
BILL OF MATERIAL MAIN BOARD
SlNo Reference Part
PCB Footprint Vendor Vendor PN
Manufac-turer
Manufac-turer Part# Description Qty
Notes /Re-
marks
1 C2,C3 0.01 �F_Mount R0E
R0402 DigiKey 541−0.0JCT−ND
Vishay Dale CR-CW04020000Z0ED
RES SMD 0.0 OHMJUMPER 1/16W
2
2 C8,C31,C41,C55
22 �F C0603 DigiKey 587−2085−1−ND
Taiyo Yuden
AMK107BJ226MA−T
CAP CER 22UF 4V20% X5R 0603
4
3 C9,C20,C24,C29,C30,C32,C56,C60
0.1 �F C0402 DigiKey 587−1227−1−ND
Taiyo Yuden
LMK105BJ104KV−F
CAP CER 0.1UF 10V10% X5R 0402
8
4 C10,C21,C23,C28,C33,C34,C54
0.01 �F C0402 DigiKey 490−1312−1−ND
Murata GRM155R71E103KA01-D
CAP CER 10000PF25V 10% X7R 0402
7
5 C11,C15,C19,C36,C37,C40,C44,C45,C46,C48,C49,C50,C52,C57
100 nF C0402 DigiKey 478−1129−1−ND
AVX 0402ZD104-KAT2A
CAP CER 0.1UF 10V10% X5R 0402
14
6 C12,C16,C18,C58
1 �F C0402 DigiKey 490−5409−1−ND
Murata GRM155R61A105ME15-D
CAP CER 1UF 10V20% X5R 0402
4
7 C13,C14,C17,C59
4.7 �F C0402 DigiKey 490−5408−1−ND
Murata GRM155R60J475ME87-D
CAP CER 4.7UF6.3V 20% X5R 0402
4
8 C22,C26,C27
2.2 �F C0402 DigiKey 490−4518−1−ND
Murata GRM155R60G225ME15-D
CAP CER 2.2UF 4V20% X5R 0402
3
9 C35,C38 10 nF C0402 DigiKey 478−1114−1−ND
AVX 0402YC103-KAT2A
CAP CER 10000PF16V 10% X7R 0402
2
10 C39,C42,C47
4.7 �F C0402 DigiKey 490−5408−1−ND
Murata GRM155R60J475ME87-D
CAP CER 4.7UF6.3V 20% X5R 0402
3
11 D1 LED_amber LED_0603 DigiKey P13488CT−ND
Panasonic LNJ414K82-RA
LED AMBER HIGHBRIGHT USS 0603
1
12 D2,D4,D5,D6,D7,D8
LED_green−LGL29K−F2J1−24−Z
LED_0603 DigiKey 475−3118−1−ND
OSRAM Op-to Semicon-ductors Inc
LGL29K−F2J1−24−Z
LED SMARTLED570NM GREEN 0603
6
13 D3 PACDN004S-R
SOT−143 Mouser 748−PACDN004SR
ON Semi 1
14 D9 LBQ39G−L2N2−35−1
LED_0603 DigiKey 475−2816−1−ND
OSRAM Op-to Semicon-ductors Inc
LBQ39G−L2-N2−35−1
LED CHIPLED BLUE470NM 0603 SMD
1
15 FB1,FB2,FB4,FB12
600 L0402 DigiKey 490−1006−1−ND
Murata BLM15AG601SN1D
FERRITE CHIP 600OHM 300MA 0402
4
16 FB3,FB5,FB6,FB7,FB8,FB10,FB11,FB13
BEAD L0805 DigiKey 587−1767−1−ND
Taiyo Yuden FB-MJ2125HS250NT
FERRITE BEAD 25OHM 0805
8
17 GND1,GND2,GND3,GND4,GND5,GND6
T POINT R TP_30_30 NA NA NA NA NA 6 TestPoint
18 H1,H2,H3,H4,H5
.129 Hole in
.240 RoundPad
MH_240_128
NA NA NA NA NA 5 RoundPad
19 J2,J17,J19,J24,J25,J26,J27,J28,J29,J30,J32
Header3−pin
berg_1x3_2p54
DigiKey 3M9448−ND 3M 961103−6404−AR
CONN HEADERVERT SGL 3POSGOLD
11
20 J7,J9,J23,J31
SMA−J−P−H−ST−EM1−ND
con_sma_e-dge
DigiKey SMA−J−P−H−ST−EM1
Samtec Inc SMA−J−P−H−ST−EM1
CONN SMA JACK 50OHM EDGE MNT
4
21 J8,J12,J13,J21
4 HEADER berg_1x4_2p54
DigiKey S7037−ND Sullins Con-nector Solu-tions
PP-PC041LF-BN−RC
Connector Header 4Position 0.100”(2.54mm) GoldThrough Hole
4
NB3x6x1xxG16QFNEVK
www.onsemi.com12
BILL OF MATERIAL MAIN BOARD
SlNo
Notes /Re-
marksQtyDescriptionManufac-
turer Part#Manufac-
turerVendor PNVendorPCB
FootprintPartReference
22 J15,J16,J20,J33,J34,J35,J36,J37
SMDHeader2−pin
berg_1x2_2p54
DigiKey 3M5350−ND 3M 151204−2320−RB
CONN 4POS 2MMHEADER DL STRSMD
8
23 J22 Conn, USB−B, SMT
USB_A_-PLUG_RA
DigiKey WM17117−ND Molex 480370001 Connector Plug USBTypeA 2.0 4 PositionThrough Hole, RightAngle, Horizontal
1
24 LED_RED1 LED, Green LED_0603 DigiKey P11475CT−ND
Panasonic LNJ212R82-RA
LED RED TSS TYPE0603
1
25 LED1 846−1040−1−ND
LED_SM-L_DUO
DigiKey 846−1040−1−ND
RohmSemicon-ductor
SML−P24MUWT86
LED PICOLED DUALYWGN/RED 1010
1
26 L1 FB600R/0.5A
L0402 DigiKey 490−5258−1−ND
Murata BLM18KG601SN1D
FERRITE CHIP 600OHM 1300MA 0603
1
27 M1,M2,M3 NTS2101P/ON
sot−323 DigiKey NTS2101PT1-GOSCT−ND
ON Semi NTS2101PT1G
MOSFET P−CH 8V1.4A SOT−323
3
28 Q1 MMBT2907A-LT1G
sot_23 DigiKey MMBT2907AL-T3GOSCT−ND
ON Semi MMBT2907-ALT3G
TRANS PNP 60V0.6A SOT−23
1
29 Q6,Q7 50C02CH−TL−E
sot−23 DigiKey 50C02CH−TL−EOSCT−ND
ON Semi 50C02CH−TL−E
TRANS NPN 50V0.5A CPH3
2
30 Q9 NTLJD3115P-T1G
6−WDFN(2X2)
DigiKey NTLJD3115PT1GOSCT−ND
ON Semi NTLJD3115-PT1G
MOSFET 2P−CH20V 2.3A 6−WDFN
1
31 Q11,Q12,Q13,Q14,Q15,Q16,Q17,Q18
NTA4153NT1G
sot−416 DigiKey NTA4153NT1-GOSCT−ND
ON Semi NTA4153NT1G
MOSFET N−CH 20V915MA SOT−416
8
32 R1,R2,R20,R21,R36,R40,R59,R62
50E R0402 DigiKey P49.9LDKR−ND
Panasonic ERJ−2RKF49R9X
RES SMD 49.9 OHM1% 1/10W 0402
8
33 R3,R25 125E R0402 DigiKey P124LCT−ND Panasonic ERJ−2RKF1240X
RES SMD 124 OHM1% 1/10W 0402
2
34 R4,R30 84E R0402 DigiKey P84.5LCT−ND Panasonic ERJ−2RKF84R5X
RES SMD 84.5 OHM1% 1/10W 0402
2
35 R5,R10,R12,R14,R15,R16,R24,R28,R33,R34,R35,R39,R43,R46,R49,R57,R63,R75,R83,R84,R85,R86,R87,R88,R90,R91,R92,R93,R94,R100,R101,R105,-R106,R107,-R108,R109,-R110,R111,R112,R113,R114,R115,R118,R119,R120,R121,R131
0E R0402 DigiKey 541−0.0JCT−ND
Vishay Dale CR-CW04020000Z0ED
RES SMD 0.0 OHMJUMPER 1/16W
47
36 R7,R9,R53 0E R0402 DigiKey 541−0.0JCT−ND
Vishay Dale CR-CW04020000Z0ED
RES SMD 0.0 OHMJUMPER 1/16W
3
37 R116,R117,R149
0E R0402 DigiKey 541−0.0JCT−ND
Vishay Dale CR-CW04020000Z0ED
RES SMD 0.0 OHMJUMPER 1/16W
3
NB3x6x1xxG16QFNEVK
www.onsemi.com13
BILL OF MATERIAL MAIN BOARD
SlNo
Notes /Re-
marksQtyDescriptionManufac-
turer Part#Manufac-
turerVendor PNVendorPCB
FootprintPartReference
38 R22,R41,R54,R55,R56,R58,R61,R65,R67,R68,R69,R70,R71,R72,R74,R76,R78,R79,R80,R81,R89,R136,R150
10K R0402 DigiKey P10KJCT−ND Panasonic ERJ−2GEJ103X
RES SMD 10K OHM5% 1/10W 0402
23
39 R23,R82 2.2K R0402 DigiKey P2.2KJCT−ND Panasonic ERJ−2GEJ222X
RES SMD 2.2K OHM5% 1/10W 0402
2
40 R31,R77 82E R0603 DigiKey 541−82.0HC-T−ND
Vishay Dale CR-CW060382R0FKEA
RES SMD 82 OHM1% 1/10W 0603
2
41 R37,R50 50K R0402 DigiKey P10KJCT−ND Panasonic ERJ−2GEJ103X
RES SMD 10K OHM5% 1/10W 0402
2
42 R48 12K R0402 DigiKey P12.0KLCT−ND
Panasonic ERJ−2RKF1202X
RES SMD 12K OHM1% 1/10W 0402
1
43 R64,R66,R103,R104,-R122,R123,-R124,R125,-R126,R141,R143,R140,R142
1K R0402 DigiKey P1.0KJCT−ND Panasonic ERJ−2GEJ102X
RES SMD 1K OHM5% 1/10W 0402
13
44 R73 1.5K R0402 DigiKey P1.5KJCT−ND Panasonic ERJ−2GEJ152X
RES SMD 1.5K OHM5% 1/10W 0402
1
45 R137,R138 22K R0402 DigiKey P22KJCT−ND Panasonic ERJ−2GEJ223X
RES SMD 22K OHM5% 1/10W 0402
2
46 R148 8.2K R0402 DigiKey P8.2KJCT−ND Panasonic ERJ−2GEJ822X
RES SMD 8.2K OHM5% 1/10W 0402
1
47 R139 47K R0402 DigiKey P47KJCT−ND Panasonic ERJ−2GEJ473X
RES SMD 47K OHM5% 1/10W 0402
1
48 R144,R145 33K R0402 DigiKey P33KJCT−ND Panasonic ERJ−2GEJ333X
RES SMD 33K OHM5% 1/10W 0402
2
49 R146 3.3K R0402 DigiKey P3.3KJCT−ND Panasonic ERJ−2GEJ332X
RES SMD 3.3K OHM5% 1/10W 0402
1
50 SW1,SW2 SDA01H1SB-D
DigiKey CKN10358−N-D
C&K Components
SDA01H1-SBD
SWITCH DIP TAPESEALED 1POS 24V
2
51 TP1,TP2,TP5,TP6,TP7,TP8,TP9,TP20,TP28
Test Pad 50x 100 mil
NA NA NA NA NA NA 9 Testpoint
52 TP3,TP4,TP11,TP14,TP17,TP18,TP21,TP22,TP23,TP24,TP25,TP26,TP27,TP19
Test Pad 30x 60 mil
TP_70_36 DigiKey 732−5314−ND Wurth ElectronicsInc
61300111121
CONN HEADER 1POS 2.54
14
53 U1,U3 ADG3257BR-QZ
QSOP_16-P_25MIL
DigiKey ADG3257BRQ-Z−ND
Analog Devices
ADG3257BR-QZ
IC MUX QUAD3.3/5V HS 16−QSOP
2
54 U2 NB3H63143-G
QFN_16P_0P5MM
1 ONSemi-con-ductorpart
55 U4 FT2232H qfn_64_0p5
DigiKey 768−1025−1−ND
FTDI FT2232HQ−REEL
IC USB HS DUALUART/FIFO 64−QFN
1
56 U5 CAT93C56YI−GT3
tssop_8_4p4w_0p65
Digi−Key CAT93C56YI−GT3−ND
ON Semi CAT93C56YI−GT3
IC EEPROM 2KBIT2MHZ 8TSSOP
1
57 U6,U9 NCP4688DS-N33T1G, 3.3V
sot23−5 ON Semi NCP4688DSN33T1GOSCT−ND
ON Semi NCP4688DS-N33T1G
IC REG LDO 3.3V0.15A SOT23−5
2
58 U7 NCP4688DS-N18T1G, 1.8V
sot23−5 ON Semi NCP4688DSN18T1GOSCT−ND
ON Semi NCP4688DS-N18T1G
IC REG LDO 1.8V0.15A SOT23−5
1
59 U8 NCP4688DS-N25T1G, 2.5V
sot23−5 ON Semi NCP4688DSN25T1GOSCT−ND
ON Semi NCP4688DS-N25T1G
IC REG LDO 2.5V0.15A SOT23−5
1
NB3x6x1xxG16QFNEVK
www.onsemi.com14
BILL OF MATERIAL MAIN BOARD
SlNo
Notes /Re-
marksQtyDescriptionManufac-
turer Part#Manufac-
turerVendor PNVendorPCB
FootprintPartReference
60 U11,U12,U13,U14
S−2151 DigiKey 563−1088−ND Copal Electronics
S−2151 SW ROTARY DIPSP4T SIDE KNOB5V
4
61 U15,U16 SS−10−15S-P−LE
DigiKey 563−1078−ND Copal Electronics
SS−10−15S-P−LE
SWITCH ROTARYDIP SP5T TOP 5V
2
62 U17 NCS2220AM-UT1G
8l_udfn_0P4
DigiKey NCS2220AMU-T1GOSCT−ND
ON Semi NCS2220A-MUT1G
IC COMPARATORDUAL LV 8UDFN
1
63 VTT1,VD-DO_EXT1,VDD_EXT
T POINT R TP_70_36 DigiKey 732−5314−ND Wurth ElectronicsInc
61300111121
CONN HEADER 1POS 2.54
3
64 Y1 SMTXTRL_25MH-z
CRY_EC-X_6150
ECLIPT-EK
ECX 6150 25.000M
ECLIPTEK 1 BasedonCrystalvalues
65 Y3 12 MHz CRY−ABM8G
Digi−Key 535−10901−1−ND
AbraconCorp
ABM8G−12.000MHZ−4Y−T3
Crystal 12.0000MHz30ppm 10pF 120Ohm −10 C − 60 CSurface Mount4−SMD, No Lead(DFN, LCC)
1
66 H1,H2,H3,H4,H5 (Me-chanical)
Standoff,4−40 1/4 x5/8
Standoff,4−40 1/4 x5/8
DigiKey 1808K−ND Keystone 1808 HEX STANDOFF4−40 ALUMINUM5/8”
5
67 To be usedwith theseconnectors−J24,J25,J26,J27,J28,J19 andas spare.
Shunt Shunt DigiKey 3M9580−ND 3M 969102−0000−DA
SHUNT JUMPER .1”BLACK GOLD
11
68 H1,H2,H3,H4,H5 (Me-chanical)
Screw, 4−40x 0.25, PHP
Screw,4−40 x0.25, PHP
DigiKey H342−ND BuildingFasteners
PMS 4400025 PH
MACHINE SCREWPAN PHILLIPS 4−40
5
69 VTT1,VD-DO_EXT1,VDD1
T POINT R TP_70_36 DigiKey 732−5314−ND Wurth Elec-tronics Inc
61300111121
CONN HEADER 1POS 2.54
4
70 To be usedwith theseSwitchs−U11,U12,U13,U14,U15,U16
Switch KnobBlack
DigiKey 563−1089−ND Copal Elec-tronics
K1 SWITCH KNOBBLACK
6
NB3x6x1xxG16QFNEVK
www.onsemi.com15
BILL OF MATERIAL DAUGHTER BOARD
SlNo Reference Part PCB Footprint Vendor Vendor PN Manufacturer Qty
1 C13, C15, C17, C19 4.7 �F C0603 DigiKey 587−1782−1−ND Taiyo Yuden 4
2 C23, C25 0E R0603 DigiKey 541−0.0GCT−ND Vishay Dale 2
3 C14, C16, C18, C20 10 �F C0603 DigiKey 587−3383−1−ND Taiyo Yuden 4
4 VDDO1, VDDO2,VDDO0, VDD, GNDO, GND
Test Pad 30 x 60 mil TP_70_36 DigiKey 732−5314−ND Wurth Electronics Inc
6
5 J5, J6, J7, J8 CONN RCPT 4 BERG_1X4_2P54
DigiKey S1011EC−04−ND Sullins Connec-tor Solutions
4
6 J12 SMA−J−P−H−ST−EM1−ND
con_sma_edge DigiKey SMA−J−P−H−ST−EM1
Samtec Inc 1
7 J9, J10, J11 CONS-MA001−SMD−G−ND
Con_SMA_SMD DigiKey CONS-MA001−SMD−G
Linx Technologies Inc
3
8 J26, J27, J28, J29, J30, J31 Header 3−pin berg_1x3_2p54 DigiKey 3M9448−ND 3M 6
9 L3, L4, L6 FB-MJ2125HS250NT9
L0805 DigiKey 587−1767−1−ND Taiyo Yuden 3
10 R58, R61, R62, R48, R55,R57
0E R0402 DigiKey 541−0.0JCT−ND Panasonic 6
11 SW1, SW2, SW3 SDA01H1SBD NA DigiKey CKN10358−ND C&K Compo-nents
3
12 U2 Socket SOCK_16L_QF-N
Loranger 03714 171 6217 Loranger 1
13 Y3 SMT XTRL_25MHz CRY_ECX_6150 ECLIPTEK ECX−6150−25.000M ECLIPTEK 1
14 Y3 ED1290−ND SKT CONTACT DigiKey 8975−0−15−15−21−27−10−0
Mill−Max 2
ON Semiconductor and the are registered trademarks of Semiconductor Components Industries, LLC (SCILLC) or its subsidiaries in the United States and/or other countries.SCILLC owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property. A listing of SCILLC’s product/patent coverage may be accessedat www.onsemi.com/site/pdf/Patent−Marking.pdf. SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representationor guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, andspecifically disclaims any and all liability, including without limitation special, consequential or incidental damages. “Typical” parameters which may be provided in SCILLC data sheetsand/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for eachcustomer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended,or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in whichthe failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended orunauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, andexpenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claimalleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicablecopyright laws and is not for resale in any manner.
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