[CQ-2092]
MS1266-E-05 2013/06
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Overview
CQ-2092 is an open-type current sensor using a Hall sensor which outputs the analog voltage proportional
to the AC/DC current. Quantum well ultra-thin film InAs (Indium Arsenide) is used as the Hall sensor, which
enables the high-accuracy and high-speed current sensing. Simple AI-Shell package with the Hall sensor,
magnetic core, and primary conductor realizes the space-saving and high reliability.
Features
- Bidirectional type
- Electrical isolation between the primary conductor and the sensor signal
- 5V single supply operation
- Ratiometric output
- Low variation and low temperature drift of sensitivity and offset voltage
- Low noise output: 2.1mVrms (max.)
- Fast response time: 1μs (typ.)
- Small-sized surface mount package, halogen free
Functional Block Diagram
Figure 1. Functional block diagram of CQ-2092
High-Speed Small-Sized Current Sensor
CQ-2092
Hall
Sensor
Amplifier Buffer
Compensation
Bias Unit EEPROM Unit
VOUT
DATA_IO SCLK
VDD
VSS
P
N
Magnetic
Core
[CQ-2092]
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Circuit Blocks
Table 1. Explanation of circuit blocks
Circuit Block Function
Hall Sensor Hall element which detects magnetic flux density generated from the measured current.
Amplifier Amplifier of Hall element’s output.
Buffer Output buffer with gain. This block outputs the voltage (VOUT) proportional to the current
applied to the primary conductor.
Compensation Compensation circuit which adjusts the temperature drifts of sensitivity and offset voltage.
Bias Unit Drive circuit for Hall element.
EEPROM Unit Non-volatile memory for setting adjustment parameters. The parameters are adjusted before
the shipment.
Magnetic Core Magnetic core which gathers the magnetic flux density to the Hall element.
Typical Output Characteristics
Figure 2. Typical output characteristics of CQ-2092
Pin/Function
Table 2. Pin-out description
No. Name I/O Description
1 DATA_IO - Test pin (connect to ground)
2 VDD - Power supply pin (5V)
3 VSS - Ground pin (0V)
4 VOUT O Analog output pin
5 SCLK - Test pin (connect to ground)
6 P I Primary current pin (+)
7 N I Primary current pin ()
Figure 3. Pin-out diagram
IIN
0 INS INS
VDD
1/2 VDD
PN
NP
VOUT
CQ-2092
(Top View)
I
IN
VOUT
VDD
P N
CQ-2092
(Top View)
6 7
1 3 2 4 5
[CQ-2092]
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Absolute Maximum Ratings
Table 3. Absolute maximum ratings
Parameter Symbol Min. Max. Units Notes
Supply Voltage VDD 0.3 6 V VDD
Analog Output Current IOUT 1 1 mA VOUT
Storage Temperature Tst
g
40 125 C
WARNING: Operation at or beyond these limits may result in permanent damage to the device. Normal
operation is not guaranteed at these extremes.
Primary Current Derating Curve
Conditions: Mounted on the test board complying with the EIA/JEDEC Standards (EIA/JESD 51.)
0
5
10
15
20
25
-60 -40 -20 0 20 40 60 80 100
T
a
[]
I
RMSmax
[A]
Figure 4. Primary current derating curve of CQ-2092
Recommended Operating Conditions
Table 4. Recommended operating conditions
Parameter Symbol Min. Typ. Max. Units Notes
Supply Voltage VDD 4.5 5.0 5.5 V
Output Current IOUT 0.5 0.5 mA VOUT
Output Load
Capacitance CL 100 pF VOUT
Operating Ambient
Temperature Ta 40 90 C
NOTE: Electrical characteristics are not guaranteed when operated at or beyond these conditions.
[CQ-2092]
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Electrical Characteristics
Table 5. Electrical characteristics
Conditions (unless otherwise specified): Ta=25CVDD=5V
Parameter Symbol Conditions Min. Typ. Max.
Units
Maximum Primary Current
(RMS) IRMSmax Ta=40~90C 20 20 A
Current Consumption IDD No Loads 9
mA
Sensitivity* Vh 98.0 100.0 102.0
mV/A
Offset Voltage* Vof I
IN=0A 2.390 2.500 2.610 V
Linear Sensing Range INS 21 21 A
Linearity Error* ρ 1 1
%F.S.
Rise Response Time tr IIN 90% VOUT 90%
CL=100pF 1
μs
Fall Response Time tf IIN 10% VOUT 10%
CL=100pF 1
μs
Bandwidth fT 3dB, CL=100pF 400
kHz
Output Noise** VNrms 2.1
mVrms
Maximum Temperature Drift
of Sensitivity Vh-dmax
Variation ratio to Vh(Ta=35C)
Ta=35~90C ±1
%
Variation ratio to Vh(Ta=35C)
Ta=40~35C ±2
Maximum Temperature Drift
of Offset voltage Vof-dmax Variation from Vof(Ta=35C)
Ta=40~90C, IIN=0A ±26 mV
Ratiometricity Error of
Sensitivity** Vh-R V
DD=4.5V~5.5V 1 1 %
Ratiometricity Error of Offset
Voltage** Vof-R VDD=4.5V~5.5V
IIN=0A 1 1 %
Primary Conductor
Resistance R1 340 μΩ
Isolation Voltage** VINS AC 50/60Hz, 60s 2.5 kV
Isolation Resistance** RINS DC 1kV 500 M
* These parameters can drift by the values described in ‘Reliability Tests’ section over the lifetime of the product.
** These characteristics are guaranteed by design.
[CQ-2092]
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Characteristics Definitions
(1) Sensitivity Vh [mV/mT], offset voltage Vof [V]
Sensitivity is defined as the slope of the approximate straight line calculated by the least square method,
using the data of VOUT voltage (VOUT) when the primary current (IIN) is swept within the range of linear
sensing range (INS). Offset voltage is defined as the intercept of the approximate straight line above.
(2) Linearity error ρ [%F.S.]
Linearity error is defined as the ratio of the maximum error voltage (Vd) to the full scale (F.S.), where Vd is
the maximum difference between the VOUT voltage (VOUT) and the approximate straight line calculated in
the sensitivity and offset voltage definition. Definition formula is shown in below:
ρ = Vd / F.S. × 100
NOTE) Full scale (F.S.) is defined by the multiplication of the linear sensing range and sensitivity (See
Figure 5).
Figure 5. Output characteristics of CQ-2092
(3) Ratiometric error of sensitivity Vh-R [%] and ratiometric error of offset voltage Vof-R [%]
Output of CQ-2092 is ratiometric, which means the values of sensitivity (Vh) and offset voltage (Vof) are
proportional to the supply voltage (VDD). Ratiometric error is defined as the difference between the Vh (or
Vof) and ideal Vh (or Vof) when the VDD is changed from 5.0V to VDD1 (4.5V<VDD1<5.5V). Definition formula is
shown in below:
Vh-R = 100 × {(Vh(VDD = VDD1) / Vh(VDD = 5V)) (VDD1 / 5)} / (VDD1 / 5)
Vof-R = 100 × {(Vof(VDD = VDD1) / Vof(VDD = 5V)) (VDD1 / 5)} / (VDD1 / 5)
(4) Temperature drift of sensitivity Vh-d [%]
Temperature drift of sensitivity is defined as the drift ratio of the sensitivity (Vh) at Ta=Ta1 (40C<Ta1<90C)
to the Vh at Ta=35C, and calculated from the formula below:
Vh-d = 100 × (Vh(Ta1) / Vh(35C) 1)
Maximum temperature drift of sensitivity (Vh-dmax) is defined as the maximum value of |Vh-d| through the
defined temperature range.
Reference data of the temperature drift of sensitivity of CQ-2092 is shown in Figure 6.
Approximate straight line
by least square method
|INS| IIN(A)
VOUT(V)
|INS| 0
F.S.
=2Vh×|INS|
Vd
[CQ-2092]
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(5) Temperature drift of offset voltage Vof-d [mV]
Temperature drift of offset voltage is defined as the drift value between the offset voltage (Vof) at Ta=Ta1
(40C<Ta1<90C) and the Vof at Ta=35C, and calculated from the formula below:
Vof-d = Vof(Ta = Ta1) Vof(Ta = 35C)
Maximum temperature drift of offset voltage (Vof-dmax) is defined as the maximum value of |Vof-d| through the
defined temperature range.
Reference data of the temperature drift of offset voltage of CQ-2092 is shown in Figure 7.
-5
-4
-3
-2
-1
0
1
2
3
4
5
-60 -40 -20 0 20 40 60 80 100 120
Ta [°C]
Vh-d [%]
-40
-30
-20
-10
0
10
20
30
40
-60 -40 -20 0 20 40 60 80 100 120
T
a
[°C]
V
of-d
[mV]
(6) Rise response time tr [μs] and fall response time tf [μs]
Rise response time (or fall response time) is defined as the time delay from the 90% (or 10%) of input
primary current (IIN) to the 90% (or 10%) of the VOUT voltage (VOUT) under the pulse input of primary
current (see Figure 8.)
Figure 8. Definition of response time
Rise response time (tr) Fall response time (tf)
IIN
VOUT
Time
Time
90% IIN
90% Vout
tr
IIN
VOUT
Time
Time
10% IIN
tf
10% Vout
VDD=5.0V
IIN=±21A
VDD=5.0V
IIN=0A
Figure 6. Temperature drift of sensitivity
of CQ-2092
(for reference, n=1)
Figure 7. Temperature drift of offset voltage
of CQ-2092
(for reference, n=3)
[CQ-2092]
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Package Dimensions
Unit:mm
Note1) The tolerances of dimensions without any mention are ±0.1mm.
Note2) An adhesive material (RoHS compliant, halogen free) is applied on a part of “Adhesive Area” to hold the magnetic
core.
Terminals: Cu
Plating for Terminals: Sn (100%)
RoHS compliant, halogen free
Figure 9. Package outline
[CQ-2092]
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Recommended Land Pattern (Reference Only)
Unit:mm
Figure 10. Recommended land pattern of CQ-2092
Note) If 2 or more trace layers are used as the current path, please make enough number of through-holes to flow current
between the trace layers.
[CQ-2092]
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Application Circuits
6
5
4
IN3
2
1
7
0.1F
+5V
R1
R1
R2
R2
VOUT
SCLK
P
DATA_IO
VDD
VSS
AIN
VSS
VREF
RF
CF
N
A/D
(a) 0.1F bypass capacitor should be placed near by the CQ-2092
(b) Ratiometric output of CQ-2092 enables an A/D system to improve the A/D conversion error caused by the fluctuation
of supply voltage. This is achieved by making the supply voltage of CQ-2092 and the reference voltage of A/D
converter common.
Voltage dividers (R1 and R2) are required if the reference voltage of A/D converter is less than +5V.
For example, if the reference voltage of A/D converter is +3.3V which is its supply voltage level, R1=20k , R2=39k
are recommended. If the reference voltage of A/D converter is different from its supply voltage level, one more
voltage divider is required.
(c) Add a low-pass filter if it is necessary.
Figure 11. Recommended circuits when using A/D converter
CQ-2092
(b) (c)
(a)
[CQ-2092]
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Markings
Production information is printed on the package surface by laser marking. Markings consist of 12 characters (6
characters × 2 lines).
Figure 12. Markings of CQ-2092
Table 6. Production date code table
Last Number of Year Month Day
Character Number Character Month Character Day
0 0 C Jan. 1 1
1 1 D Feb. 2 2
2 2 E Mar. 3 3
3 3 F Apr. 4 4
4 4 G May. 5 5
5 5 H Jun. 6 6
6 6 J Jul. 7 7
7 7 K Aug. 8 8
8 8 L Sep. 9 9
9 9 M Oct. 0 10
N Nov. A 11
P Dec. B 12
C 13
D 14
E 15
F 16
G 17
H 18
J 19
K 20
L 21
N 22
P 23
R 24
S 25
T 26
U 27
V 28
W 29
X 30
Y 31
Q2092
******
Product CodeCQ-2092)+Option
Option3Characters including blank
Production Date (Y/M/D)
[CQ-2092]
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Reliability Tests
Table 7. Test parameters and conditions of reliability test
No. Test Parameter Test Conditions n Test Time
1 High Humidity Storage Test JEITA EIAJ ED-4701 102
Ta=85C, 85%RH, continuous operation 22 1000h
2 High Temperature Bias Test JEITA EIAJ ED-4701 101
Ta=125C, continuous operation 22 1000h
3 High Temperature Storage Test JEITA EIAJ ED-4701 201
Ta=150C 22 1000h
4 Low Temperature Storage Test JEITA EIAJ ED-4701 202
Ta= 55C 22 1000h
5 Heat Cycle Test
JEITA EIAJ ED-4701 105
40C 25C 125C
30min. 5min. 30min.
Tested in vapor phase
22 100 cycles
6 Vibration Test
JEITA EIAJ ED-4701 403
Vibration frequency: 10~55Hz (1min.)
Vibration amplitude: 1.5mm (x, y, z directions)
5 2h for each direction
Tested samples are pretreated as below before each reliability test:
Desiccation: 125C /24h Moisture Absorption: 85C/85%RH/168h Reflow: 3 times (JEDEC Level1)
Criteria
Products whose drifts before and after the reliability tests do not exceed the values below are considered to be in
spec.
Sensitivity Vh (Ta=25C) Within ±1.5%
Offset Voltage Vof (Ta=25C) Within ±100mV
Linearity ρ (Ta=25C) Within ±1%
[CQ-2092]
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Precautions
<Storage Environment>
Products should be stored at an appropriate temperature and humidity (5 to 35C, 40 to 85%RH).
Keep products away from chlorine and corrosive gas.
<Long-term Storage>
Long-term storage may result in poor lead solderability and degraded electrical performance even under proper
conditions. For those parts, which stored long –term shall be check solderability before it is used.
For storage longer than 2 years, it is recommended to store in nitrogen atmosphere. Oxygen of atmosphere oxidizes
leads of products and lead solderability get worse.
<Other precautions>
1) This product should not be used under the environment with corrosive gas including chlorine or sulfur.
2) This product is lead (Pb) free. All leads are plated with 100% tin. Do not store this product alone in high
temperature and high humidity environment. Moreover, this product should be mounted on substrate within
six months after delivery.
3) This product is damaged when it is used on the following conditions:
Supply voltage is applied in the opposite way.
Overvoltage which is larger than the value indicated in the specification.
4) This product will be damaged if it is used for a long time with the current (effective current) which exceeds the
current rating. Careful attention must be paid so that maximum effective current is smaller than current rating.
5) Since magnetic cores are fragile parts, do not use the fallen products.
6) The characteristic can change by the influences of nearby current and magnetic field. Please make sure of the
mounting position.
As this product contains gallium arsenide, observe the following procedures for safety.
1) Do not alter the form of this product into a gas, powder, liquid, through burning, crushing, or chemical processing.
2) Observe laws and company regulations when discarding this product.
[CQ-2092]
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