SLG7NT41502V [DIALOG]
CURIE BASED WEARABLE;型号: | SLG7NT41502V |
厂家: | Dialog Semiconductor |
描述: | CURIE BASED WEARABLE |
文件: | 总10页 (文件大小:666K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
SLG7NT41502
CURIE BASED WEARABLE
General Description
Pin Configuration
Silego SLG7NT41502 is a low power and small
form device. The SoC is housed in a 1.6 x 2.0 mm
STQFN package which is optimal for using with
small devices.
Features
14
13
• Low Power Consumption
• Pb-Free / RoHS Compliant
• Halogen-Free
12
11
10
9
VDD
nBUTTON_IN
nEXIT_SHIPMODE
POR_B
1
2
3
4
5
OPM2P6_DISCHARGE
nBUTTON_MONITOR
PG_IN
• STQFN-14 Package
nPG_IN
SHIPMODE_EN
8
Output Summary
• 1 Output — Push Pull 2X
6
7
GND
STQFN-14
TOP VIEW
• 1 Output — Open Drain NMOS 1X
• 3 Outputs — Open Drain NMOS 2X
Silego Technology, Inc.
Rev 1.04
SLG7NT41502_DS_r104
SLG7NT41502_GP_r002
Revised January 23, 2017
SLG7NT41502
CURIE BASED WEARABLE
Pin Configuration
Pin #
1
Pin Name
Type
PWR
Pin Description
Supply Voltage
VDD
nBUTTON_IN
nEXIT_SHIPMODE
POR_B
2
3
4
Digital Input
Digital Input
Digital Input
Digital Input
Digital Input
Digital Input with Schmitt trigger
Digital Input with Schmitt trigger
Low Voltage Digital input
Low Voltage Digital input
Low Voltage Digital input
5
6
7
8
SHIPMODE_EN
SHIPMODE_STROBE
DISCHARGE_0
GND
Digital Output Open Drain NMOS 2X
GND
Ground
9
nPG_IN
PG_IN
nBUTTON_MONITOR
OPM2P6_DISCHARGE
DISCHARGE_1
LS_ON
Digital Input
Digital Input
Digital Output Open Drain NMOS 1X
Digital Output Open Drain NMOS 2X
Digital Output Open Drain NMOS 2X
Digital Output Push Pull 2X
Digital Input with Schmitt trigger
Digital Input with Schmitt trigger
10
11
12
13
14
Ordering Information
Part Number
Package Type
V=STQFN-14
SLG7NT41502V
SLG7NT41502VTR
STQFN-14 – Tape and Reel (3k units)
SLG7NT41502_DS_r104
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SLG7NT41502
CURIE BASED WEARABLE
Absolute Maximum Conditions
Parameter
Min.
-0.3
-0.3
-1.0
-65
Max.
Unit
V
VHIGH to GND
7
7
Voltage at input pins
V
Current at input pin
1.0
125
150
--
mA
°C
°C
V
Storage temperature range
Junction temperature
--
ESD Protection (Human Body Model)
ESD Protection (Charged Device Model)
Moisture Sensitivity Level
2000
1000
--
V
1
Electrical Characteristics
(@ 25°C, unless otherwise stated)
Symbol
Parameter
Condition/Note
Min.
Typ.
Max.
Unit
VDD
Supply Voltage
Operating
Temperature
1.71
3.6
5.5
V
TA
-40
--
25
1
85
--
--
--
--
--
--
--
°C
Static inputs and floating outputs
PIN4 = 1; PIN14 = 1; DFF4 = 0 @VDD = 3.3V
Static inputs and outputs
PIN4 = 0; PIN14 = 0; DFF4 = 1 @VDD = 3.3V
Static inputs and outputs
PIN4 = 1; PIN14 = 1; DFF4 = 0 @VDD = 5.5V
Static inputs and outputs
PIN4 = 0; PIN14 = 0; DFF4 = 1 @VDD = 5.5V
Static outputs
PIN4 = 0; PIN14 = 1; DFF4 = 0 @VDD = 3.7V
--
1
IQ
Quiescent Current
µA
--
1
--
1
--
50
1.8
50
Static outputs
PIN4 = 0; PIN14 = 0; DFF4 = 0 @VDD = 3.3V
Static outputs
IA
Active Current
--
µA
--
PIN4 = 0; PIN14 = 1; DFF4 = 0 @VDD = 5.5V
Maximal Voltage
Applied to any PIN in
High-Impedance
State
Maximal Average or
DC Current
VO
--
--
--
--
VDD
90
V
IO
Per Each Chip Side
mA
(note 1)
Logic Input with Schmitt Trigger,
at VDD=1.8V
1.27
0.98
2.13
--
--
--
VDD
VDD
VDD
At temperature -45°C +85°C (note 1)
Low-Level Logic Input, at VDD=1.8V
At temperature -45°C +85°C (note 1)
Logic Input with Schmitt Trigger,
at VDD=3.3V
HIGH-Level Input
Voltage
(Note 2)
VIH
V
At temperature -45°C +85°C (note 1)
SLG7NT41502_DS_r104
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SLG7NT41502
CURIE BASED WEARABLE
Low-Level Logic Input, at VDD=3.3V
At temperature -45°C +85°C (note 1)
Logic Input with Schmitt Trigger,
at VDD=5.0V
1.13
--
VDD
3.16
--
VDD
At temperature -45°C +85°C (note 1)
Low-Level Logic Input, at VDD=5.0V
At temperature -45°C +85°C (note 1)
Logic Input with Schmitt Trigger,
at VDD=1.8V
Low-Level Logic Input, at VDD=1.8V
At temperature -45°C +85°C (note 1)
Logic Input with Schmitt Trigger,
at VDD=3.3V
At temperature -45°C +85°C (note 1)
Low-Level Logic Input, at VDD=3.3V
At temperature -45°C +85°C (note 1)
Logic Input with Schmitt Trigger,
at VDD=5.0V
1.23
--
--
--
--
VDD
0.44
0.52
--
--
--
--
--
--
--
0.95
0.69
1.51
LOW-Level Input
Voltage
(Note 2)
VIL
V
At temperature -45°C +85°C (note 1)
Low-Level Logic Input, at VDD=5.0V
At temperature -45°C +85°C (note 1)
--
--
--
--
--
0.78
0.792
1.0
Schmitt Trigger
Hysteresis Voltage
HIGH-Level Input
Current
LOW-Level Input
Current
VHYS
IIH
Logic Input with Schmitt Trigger
Logic Input PINs; VIN = VDD
Logic Input PINs; VIN = 0V
0.273
-1.0
-1.0
V
µA
µA
IIL
1.0
Push Pull,
IOH = 100uA, 2X Driver, at VDD=1.8 V
At temperature -45°C +85°C (note 1)
Push Pull,
IOH = 3mA, 2X Driver, at VDD=3.3 V
At temperature -45°C +85°C (note 1)
Push Pull,
IOH = 5mA, 2X Driver, at VDD=5.0 V
At temperature -45°C +85°C (note 1)
Open Drain,
IOL = 100uA, 1X Driver, at VDD=1.8 V
At temperature -45°C +85°C (note 1)
Push Pull,
IOL = 100uA, 2X Driver, at VDD=1.8 V
At temperature -45°C +85°C (note 1)
Open Drain,
IOL = 100uA, 2X Driver, at VDD=1.8 V
At temperature -45°C +85°C (note 1)
Open Drain,
IOL = 3mA, 1X Driver, at VDD=3.3 V
At temperature -45°C +85°C (note 1)
Push Pull,
IOL = 3mA, 2X Driver, at VDD=3.3 V
At temperature -45°C +85°C (note 1)
1.679
1.792
3.201
4.878
0.007
0.007
0.002
0.070
0.079
--
HIGH-Level Output
Voltage
(note 1)
VOH
2.861
--
V
4.330
--
--
--
--
--
--
0.010
0.010
0.010
0.130
0.130
LOW-Level Output
Voltage
(note 1)
VOL
V
SLG7NT41502_DS_r104
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SLG7NT41502
CURIE BASED WEARABLE
Open Drain,
IOL = 3mA, 2X Driver, at VDD=3.3 V
At temperature -45°C +85°C (note 1)
Open Drain,
IOL = 5mA, 1X Driver, at VDD=5.0 V
At temperature -45°C +85°C (note 1)
Push Pull,
IOL = 5mA, 2X Driver, at VDD=5.0 V
At temperature -45°C +85°C (note 1)
Open Drain,
IOL = 5mA, 2X Driver, at VDD=5.0 V
At temperature -45°C +85°C (note 1)
Push Pull & PMOS OD,
--
0.040
0.090
0.101
0.050
3.390
0.070
--
0.160
--
0.160
--
0.080
--
VOH = VDD-0.2, 2X Driver, at VDD=1.8 V
At temperature -45°C +85°C (note 1)
Push Pull & PMOS OD,
2.069
HIGH-Level Output
Current
(note 1)
IOH
VOH = 2.4 V, 2X Driver, at VDD=3.3 V
At temperature -45°C +85°C (note 1)
Push Pull & PMOS OD,
VOH = 2.4 V, 2X Driver, at VDD=5.0 V
At temperature -45°C +85°C (note 1)
Push Pull,
11.278 21.634
40.059 59.691
--
mA
--
VOL =0.15V, 2X Driver, at VDD=1.8 V
At temperature -45°C +85°C (note 1)
Open Drain,
VOL =0.15V, 1X Driver, at VDD=1.8 V
At temperature -45°C +85°C (note 1)
Open Drain,
VOL =0.15V, 2X Driver, at VDD=1.8 V
At temperature -45°C +85°C (note 1)
Push Pull,
1.52
1.530
3.060
2.840
2.840
5.680
--
--
--
VOL =0.4V, 2X Driver, at VDD=3.3 V
At temperature -45°C +85°C (note 1)
Open Drain,
VOL =0.4V, 1X Driver, at VDD=3.3 V
At temperature -45°C +85°C (note 1)
Open Drain,
8.130 13.840
8.130 13.850
16.260 23.700
--
--
LOW-Level Output
Current
IOL
mA
(note 1)
VOL =0.4V, 2X Driver, at VDD=3.3 V
At temperature -45°C +85°C (note 1)
--
Push Pull,
VOL =0.4V, 2X Driver, at VDD=5.0 V
At temperature -45°C +85°C (note 1)
12.020 19.460
12.030 19.460
24.060 38.920
--
--
--
Open Drain,
VOL =0.4V, 1X Driver, at VDD=5.0 V
At temperature -45°C +85°C (note 1)
Open Drain,
VOL =0.4V, 2X Driver, at VDD=5.0 V
At temperature -45°C +85°C (note 1)
SLG7NT41502_DS_r104
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SLG7NT41502
CURIE BASED WEARABLE
Low to High transition,
at temperature 25°C.
3532.7 3582.9 3633.1
Low to High transition,
at temperature -40 +85°C (note 1)
High to Low transition,
at temperature 25°C
High to Low transition,
at temperature -40 +85°C (note 1)
3519.7 3579.8 3644.2
Analog Comparator
Threshold Voltage
VACMP0
mV
2948.8 2991.5 3034.2
2937.1 2988.1 3040.9
Analog Comparator0
IN+ gain
Analog Comparator
Hysteresis Voltage
(note 1)
GACMP0
ACMP 0
--
--
0.33
200
--
--
VHYST
ACMP 0
mV
Internal Pull Up
Resistance
Internal Pull Down
Resistance
Discharge
Resistance
RPULL_UP
RPULL_DOWN
RDIS
Pull up on PIN 2, 3
70
70
100
100
--
130
130
--
kΩ
kΩ
Ω
Pull down on PINs 5, 6
External resistor on PIN7, PIN12 and PIN13
270
At temperature 25°C
At temperature -40°C +85°C (note 1)
At temperature 25°C
At temperature -40°C +85°C (note 1)
At temperature 25°C
At temperature -40°C +85°C (note 1)
At temperature 25°C
153.14 176.87 207.44
153.14 178.87 217.81
195.04 200.45 206.90
184.59 200.45 216.47
486.52 500.02 516.10
460.44 500.02 539.10
195.04 200.45 206.90
184.59 200.45 216.47
Counter0 Period
(WS Ctrl)
TCNT0
ms
ms
ms
ms
TDLY1
Delay1 Time
Delay2 Time
TDLY2
TDLY3
Delay3 Time
Start up Time
At temperature -40°C +85°C (note 1)
From VDD rising past PONTHR
TSU
PONTHR
0.462
0.961
0.875
1.4
1.312
1.109
4.999
1.659
1.288
ms
V
V
Power On Threshold VDD Level Required to Start Up the Chip
POFFTHR Power Off Threshold VDD Level Required to Switch Off the Chip
1. Guaranteed by Design.
2. No hysteresis for Low Voltage Digital Input
SLG7NT41502_DS_r104
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SLG7NT41502
CURIE BASED WEARABLE
Datasheet
Revision
1.04
Programming
Code Number
002
Locked
Status
L
Part Code
Revision
Date
V6
B
01/23/2017
The IC security bit is locked/set for code security for production unless otherwise specified. Revision
number is not changed for bit locking.
SLG7NT41502_DS_r104
Page 7
SLG7NT41502
CURIE BASED WEARABLE
Package Drawing and Dimensions
14 Lead STQFN Package
SLG7NT41502_DS_r104
Page 8
SLG7NT41502
CURIE BASED WEARABLE
Tape and Reel Specification
Max Units
Trailer A
Leader B
Pocket (mm)
Nominal
Package
Size (mm)
Reel &
Hub Size
(mm)
# of
Pins
Package Type
Length
Length
per reel per box
Pockets
Pockets
Width
Pitch
(mm)
(mm)
STQFN 14L
FC 0.4P
Green
14
1.6x2.0x0.55
3000
3000
178/60
100
400
100
400
8
4
Carrier Tape Drawing and Dimensions
Pocket
Index Hole Index Hole
Pocket
BTM Width
(mm)
Pocket
Depth
(mm)
Index Hole
Pocket
Pitch
(mm)
Index Hole
Diameter
(mm)
BTM
Length
(mm)
to Tape
Edge
to Pocket Tape Width
Center
(mm)
Pitch
(mm)
(mm)
Package
Type
(mm)
A0
B0
K0
P0
P1
D0
E
F
W
STQFN 14L
FC 0.4P
Green
1.9
2.3
0.8
4
4
1.5
1.75
3.5
8
Refer to EIA-481 Specifications
Recommended Reflow Soldering Profile
Please see IPC/JEDEC J-STD-020: latest revision for reflow profile based on package volume of 1.76 mm3 (nominal).
More information can be found at www.jedec.org.
SLG7NT41502_DS_r104
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SLG7NT41502
CURIE BASED WEARABLE
Silego Website & Support
Silego Technology Website
Silego Technology provides online support via our website at http://www.silego.com/.This website is used as a means to make files
and information easily available to customers.
For more information regarding Silego Green products, please visit our website.
Our Green product lines feature:
GreenPAK1 / GreenPAK2 / GreenPAK3/ GreenPAK 4 / GreenPAK 5: Programmable Mixed Signal Matrix products
GreenFET1 / GreenFET3: MOSFET Drivers and ultra-small, low RDSon Load Switches
GreenCLK1 / GreenCLK2 / GreenCLK3: Crystal replacement technology
Products are also available for purchase directly from Silego at the Silego Online Store at http://www.silego.com/buy/ .
Silego Technical Support
Datasheets and errata, application notes and example designs, user guides, and hardware support documents and the latest software
releases are available at the Silego website or can be requested directly at info@silego.com.
For specific GreenPAK design or applications questions and support please send e-mail requests to GreenPAK@silego.com
Users of Silego products can receive assistance through several channels:
Contact Your Local Sales Representative
Customers can contact their local sales representative or field application engineer (FAE) for support. Local sales offices are also
available to help customers. More information regarding your local representative is available at the Silego website or send a request
to info@silego.com
Contact Silego Directly
Silego can be contacted directly via e-mail at info@silego.com or user submission form, located at the following URL:
http://support.silego.com/
Other Information
The latest Silego Technology press releases, listing of seminars and events, listings of world wide Silego Technology offices and
representatives are all available at http://www.silego.com/
THIS PRODUCT HAS BEEN DESIGNED AND QUALIFIED FOR THE CONSUMER MARKET. APPLICATIONS OR USES AS
CRITICAL COMPONENTS IN LIFE
SUPPORT DEVICES OR SYSTEMS ARE NOT AUTHORIZED. SILEGO TECHNOLOGY DOES NOT ASSUME ANY LIABILITY
ARISING OUT OF SUCH APPLICATIONS OR USES OF ITS PRODUCTS. SILEGO TECHNOLOGY RESERVES THE RIGHT TO
IMPROVE PRODUCT DESIGN, FUNCTIONS AND RELIABILITY WITHOUT NOTICE
SLG7NT41502_DS_r104
Page 10
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