HSMC H277

HI-SINCERITY
MICROELECTRONICS CORP.
Spec. No. : IC200907
Issued Date : 2009.04.03
Revised Date :2009.10.29
Page No. : 1/7
H277
Complementary Output Hall Effect Sensor IC
General Description
H277 is designed to integrate Hall sensor with output driver together on the
same chip. It is suitable for dual coils brush-less DC motors, dual coils brush-less DC fan, speed measurement,
and revolution counting.
It includes a band-gap reference voltage source, a Hall device, an amplifier, a hysteretic controller and an opencollector output drive capable of sinking up to 300mA current load. An on-chip protection diode is implemented to
prevent reverse power fault.
H277 has a control circuit to prevent “dead angle” from logic race condition in DC Fan. It has excellent
characteristic of temperature compensation. The internal temperature compensated voltage source can let sensor
to get uniform sensitivity in a wide temperature range.
It is rated for operation over temperature rage from -20oC to +85oC and voltage ranges from 3.0V to 20V.
Features
• On-chip Hall sensor
• 3.0V to 20V operating voltage
• Internal Temperature compensation
• Special design providing logic race condition immunity, shorter switching time, and good switch reliability
• 300mA output sink current
• Internal on-chip protection diode
• SIP-4L Package
Applications
• Dual-coil Brush-less DC Motor
• Dual-coil Brush-less DC Fan
• Revolution Counting
• Speed Measurement
Typical Application Circuit (Brush-Less DC Fan)
Fig.2 H277 Application Circuit
H277
HSMC Product Specification
HI-SINCERITY
Spec. No. : IC200907
Issued Date : 2009.04.03
Revised Date :2009.10.29
Page No. : 2/7
MICROELECTRONICS CORP.
Pin Configuration
Name
P/I/O
Pin No.
VCC
P
1
Description
Power Supply Input
DO
O
2
Output Pin
DOB
O
3
Output Pin
GND
P
4
Ground
Block Diagram
Vcc
Temperature
Compensation
Vout1
Voltage
Regulator
GND
Hall
Effect
Sensor
Differential
Amplifier
Hysteresis
Control
Output
Driver
Vout2
Logic Control
GND
Fig.3 Functional Block Diagram of H277
Absolute Maximum Ratings (Ta=25oC)
Characteristics
Symbol
Values
Unit
VCC
20
V
VOUT(breakdown)
35
V
Magnetic Flux Density
B
Unlimited
Gauss
Output Zener Breakdown
VZ
28
V
Output ON Current (continuous)
IC
300
mA
ICMAX
1
A
Operating Temperature Range
TA
-20 to +85
℃
Storage Temperature Range
TStg
-65 to +150
℃
Package Power Dissipation
PD
500
mW
Maximum Junction Temperature
TJ
150
℃
Supply Voltage
Output breakdown Voltage
Maximum Output Current
H277
HSMC Product Specification
HI-SINCERITY
Spec. No. : IC200907
Issued Date : 2009.04.03
Revised Date :2009.10.29
Page No. : 3/7
MICROELECTRONICS CORP.
Electrical Characteristics (T=+25℃, VCC=3V~20V)
Characteristic
Supply Voltage
Symbol
Test Conditions
Min.
Typ.
Max.
Unit
3
-
20
V
VCC=3V, IL=100mA
-
200
-
VCC=14V, IL=300mA
-
300
600
VCC
Output Saturation Voltage
VCE(sat)
mV
Output Leakage Current
Icex
Vce=14V, VCC=14V
-
-
2
uA
Supply Current
Iccq
VCC=20V, Output Open
-
14
20
mA
Output Rise Time
Tr
VCC=14V, RL=400Ω, CL=20pF
-
1
5
uS
Output Falling Time
Tf
VCC=14V, RL=400Ω, CL=20pF
-
0.2
1.2
uS
Magnetic Characteristics
Characteristic
H277A
H277B
H277C
H277D
Symbol
Operate Point
Bop
-
Release Point
Brp
-50
Operate Point
Bop
-
Release Point
Brp
-70
Operate Point
Bop
-
Release Point
Brp
Operate Point
Release Point
Max.
Unit
50
Gauss
-
Gauss
70
Gauss
-
Gauss
90
Gauss
-90
-
Gauss
Bop
-
130
Gauss
Brp
-130
-
Gauss
Fig.4 VDO vs. Magnetic Flux Density
H277
Min.
Grade
A
B
C
D
Fig.5 VDOB vs. Magnetic Flux Density
HSMC Product Specification
HI-SINCERITY
Spec. No. : IC200907
Issued Date : 2009.04.03
Revised Date :2009.10.29
Page No. : 4/7
MICROELECTRONICS CORP.
Characteristics Curve
Supply Current & Temperature
13.4
13.3
Supply Current (mA)...
13.2
Test Conditions:
VCC=20V
Output Open, RL=∞
(Refer to Test Circuit)
13.1
13
12.9
12.8
12.7
12.6
12.5
12.4
0
20
40
60
o
80
100
120
Temperature ( C)
Fig.6 ICC vs. VCC
Fig.7 ICC vs. TA
Hysteresis & Temperature
80
1400
70
1200
Test Conditions:
VCC=14V, RL=400Ω
CL=20pF
(Refer to Test Circuit)
60
Hysteresis (G)
Test Conditions:
VCC=14V, TA =25o C
IL=300mA~1200mA
1000
800
600
50
40
30
400
20
200
10
0
0
300
400
500
600
700
800
900
1000
0
20
40
60
o
80
100
120
Temperature ( C)
Loading Current (mA)
Fig.8 Vsat vs. IC
Fig.9 Bhys vs. TA
SIP-4L Power Dissipation & Temperature
600
550
Power Dissipation (mW)
Output Saturation Voltage (mV)...
Output Saturation Voltage & Loading Current
1600
500
450
400
350
300
250
200
0
20
40
60
80
o
100
120
Temperature ( C)
Fig.10 PD vs. TA
H277
HSMC Product Specification
HI-SINCERITY
Spec. No. : IC200907
Issued Date : 2009.04.03
Revised Date :2009.10.29
Page No. : 5/7
MICROELECTRONICS CORP.
Brush-less DC Fan Output Current Curve
Icoil 1
Current (mA)
180
12V, 0.24A Brush-Less DC Fan
(Refer to Typical Application Circuit)
Test Conditions:
VCC=12V, C1=C2=2.2uF
Rcoil1=Rcoil2=40ohm
90
0
Icoil 2
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1.8
2.0
Time (uS)
Fig.11 DC FAN Output Curve
Brush-less DC Fan Output Voltage Curve
Output Voltage (V)
20
18
12V, 0.24A Brush-Less DC Fan
16
Test Conditions:
VCC=12V, C1=C2=2.2uF
Rcoil1=Rcoil2=40ohm
(Refer to Typical Application Circuit)
14
Vout 1
12
10
8
6
4
2
Vout 2
0
0
2
4
6
8
10
Time (mS)
12
14
16
18
20
Fig.12 DC FAN Output Curve
Test Circuit
Fig.13 Test Circuit
H277
HSMC Product Specification
HI-SINCERITY
MICROELECTRONICS CORP.
Spec. No. : IC200907
Issued Date : 2009.04.03
Revised Date :2009.10.29
Page No. : 6/7
SIP-4L Dimension
A
B
C
1
2
3
Marking:
I
J
a1
a2
4
H
D
Note: Green label is used for Pb-free packing
K
Pin Style: 1.VCC 2.Vout1 3.Vout2 4.GND
Hall Sensor Location:
2 .0 0 m m
G
a2
F
E
E
To p
V ie w
Marking Site
a1
1 .2 5 m m
DIM
A
B
C
D
E
F
G
H
I
J
K
L
a1
a2
Min.
5.12
4.10
3.55
0.43
0.35
1.24
3.78
1.32
1.45
0.93
13.00
o
3
o
5
Max.
5.32
4.30
3.75
0.49
0.41
1.30
3.84
1.52
1.65
1.13
15.50
o
5
o
7
*: Typical, Unit: mm
L
4-Lead SIP-4L
Plastic Package
HSMC Package Code: AD
Material:
• Lead solder plating: Sn60/Pb40 (Normal),
Sn/3.0Ag/0.5Cu or Pure-Tin (Pb-free)
• Mold Compound: Epoxy resin family,
flammability solid burning class: UL94V-0
Important Notice:
• All rights are reserved. Reproduction in whole or in part is prohibited without the prior written approval of AVANTIC.
• HSMC reserves the right to make changes to its products without notice.
• HSMC semiconductor products are not warranted to be suitable for use in Life-Support Applications, or systems.
• HSMC assumes no liability for any consequence of customer product design, infringement of patents, or application assistance.
Head Office:
• Head Office (Hi-Sincerity Microelectronics Corp.): 5/F., Golden Harvest Building 15 Wang Chiu Road, Kowloon Bay, Hong Kong
Tel: +852-2755-7162 Fax: +852-2755- 7795
AVANTICS : Shanghai Address: No.399, Cai Lum Rd. Zhangjiang Technology Industrial Park Pudong, Shanghai 201210, China
Tel: +86(21) 61637118
Fax: +86(21)61637006
H277
HSMC Product Specification
HI-SINCERITY
Spec. No. : IC200907
Issued Date : 2009.04.03
Revised Date :2009.10.29
Page No. : 7/7
MICROELECTRONICS CORP.
Soldering Methods for HSMC Products
1. Storage environment: Temperature=10oC~35oC Humidity=65%±15%
2. Reflow soldering of surface-mount devices
Figure 1: Temperature profile
tP
Critical Zone
TL to TP
TP
Ramp-up
TL
tL
Temperature
Tsmax
Tsmin
tS
Preheat
25
Ramp-down
t 25oC to Peak
Time
Profile Feature
Sn-Pb Eutectic Assembly
Pb-Free Assembly
<3 C/sec
<3oC/sec
- Temperature Min (Tsmin)
100oC
150oC
- Temperature Max (Tsmax)
150oC
200oC
60~120 sec
60~180 sec
<3oC/sec
<3oC/sec
183oC
217oC
Average ramp-up rate (TL to TP)
o
Preheat
- Time (min to max) (ts)
Tsmax to TL
- Ramp-up Rate
Time maintained above:
- Temperature (TL)
- Time (tL)
60~150 sec
Peak Temperature (TP)
Time within 5oC of actual Peak
Temperature (tP)
Ramp-down Rate
Time 25oC to Peak Temperature
o
o
60~150 sec
240 C +0/-5 C
260oC +0/-5oC
10~30 sec
20~40 sec
<6oC/sec
<6oC/sec
<6 minutes
<8 minutes
Peak temperature
Dipping time
245oC ±5oC
5sec ±1sec
3. Flow (wave) soldering (solder dipping)
Products
Pb devices.
Pb-Free devices.
H277
o
o
260 C +0/-5 C
5sec ±1sec
HSMC Product Specification