MGA-231T6
High-Gain GPS LNA
with Variable Current and Shutdown Function
Data Sheet
Description
Avago Technologies’ MGA-231T6 is a low-noise ampli er
(LNA) designed for GPS/ISM/Wimax applications in the
(0.9-3.5)GHz frequency range. The LNA uses Avago Tech-
nologies’ proprietary GaAs Enhancement-mode pHEMT
process to achieve high gain with very low noise  gure
and high linearity. Noise  gure distribution is very tightly
controlled. A CMOS-compatible shutdown pin is included
either for turning the LNA on/o or for current adjust-
ment.
The low noise  gure and high gain, coupled with low cur-
rent consumption make it suitable for use in critical low-
power GPS applications or during low-battery situations.
Component Image
Surface Mount 2.0x1.3x0.4 mm3 6-lead UTSLP
Features
Very Low Noise Figure
High Gain and Linearity
Low External Component Count
Low Shutdown Current
CMOS compatible shutdown pin (SD) current @ Vsd=
1.8V : 0.11mA
Useable down to 1.8V supply
Adjustable current via single external resistor/voltage
Small package dimension: 2.0(L)x1.3(W)x0.4(H) mm
Speci cations (Typical performance @ 25°C)
At 1.575GHz
Vdd = 2.85V, Vsd = 1.8V, Idd =4mA
Gain = 17.1 dB
NF = 1.06 dB
Input IP3 = 0.2 dBm
Input P1dB = -7.7 dBm
Application
LNA for GPS, WLAN and WIMAX
31YM
PIN 1: Vsd
PIN 2: RFin
PIN 3: NC PIN 4:NC [1]
PIN 5: RFout
PIN 6: Vdd
PIN 1: Vsd
PIN 2: RFin
PIN 3: NC
PIN 6: Vdd
PIN 4:NC [1]
PIN 5: RFout GND
Top View
Bottom View
Note:
1. Pin 4 must be left unconnected
2. Package marking provides orientation and identication
“31” = Product Code
“Y” = Year of manufacture
“M” = Month code of manufacture
2
Absolute Maximum Rating[1] TA = 25°C
Symbol Parameter Units Absolute Max.
Vdd Device Drain to Source Voltage[2] V 3.6
Idd Drain Current[2] mA 15
Pin,max CW RF Input Power (Vdd = 2.7V, Idd = 6mA) dBm 13
Pdiss Total Power Dissipation[4] mW 54
Tc[5] Recommended Operating Temperature[6] °C -40 to +85
TjJunction Temperature °C 150
TSTG Storage Temperature °C -65 to 150
Notes:
1. Operation of this device in excess of any of these limits may cause permanent damage.
2. Assuming DC quiescent conditions.
3. Thermal resistance measured using Infra-Red measurement technique.
4. Board (module belly) temperature TB is 25°C. Derate 6.63 mW/°C for Tb > 141.86°C
5. Tc is de ned as case temperature, the temperature of the underside of the device where it makes contact with the circuit board
6. The device will function over the recommended range without degradation in reliability or permanent change in performance, but is not
guaranteed to meet the electrical speci cation.
Thermal Resistance [3]
(Vdd = 2.85V, Vsd = 1.8V,
Idd = 4mA), jc = 150.8°C/W
3
Electrical Speci cations
TA = 25°C, DC bias for RF parameters is as speci ed below. Freq=1.575GHz – Typical Performance[1]
Table 1a. Performance table under nominal operating conditions (Vdd =2.85V, Vsd = 1.8V, Idd = 4mA, R2 = 8.2 kOhm)
Symbol Parameter and Test Condition Units Min. Typ Max.
G Gain dB 15.2 17.1 18.7
NF[1] Noise Figure[1] dB 1.06 1.41
IP1dB Input 1dB Compressed Power dBm -7.7
IIP3[3] Input 3rd Order Intercept Point (2-tone @ Fc +/- 2.5MHz) dBm 0.2
S11 Input Return Loss dB -10
S22 Output Return Loss dB -10
S12 Reverse Isolation dB -29
Idd Supply DC current at Shutdown (SD) voltage Vsd=2.7V mA 4 6.6
Ish Shutdown Current @ VSD = 0V uA 0.4
Table 1b. Performance table under nominal operating conditions (Vdd =1.8V, Vsd = 2.6V, Idd = 3.5mA, R2 = 8.2 kOhm)
Symbol Parameter and Test Condition Units Min. Typ Max.
G Gain dB 16.6
NF[1] Noise Figure dB 1.1
IP1dB Input 1dB Compressed Power dBm -7.5
IIP3[3] Input 3rd Order Intercept Point (2-tone @ Fc +/- 2.5MHz) dBm 0
S11 Input Return Loss dB -10
S22 Output Return Loss dB -10
S12 Reverse Isolation dB -28
Idd Supply DC current at Shutdown (SD) voltage Vsd=2.7V mA 3.5
Ish Shutdown Current @ VSD = 0V uA 0.2
Table 1c. Performance table under nominal operating conditions (Vdd = Vsd = 2.7V, Idd = 6mA, R2 = 5.6 kOhm)
Symbol Parameter and Test Condition Units Min. Typ Max.
G Gain dB 17.9
NF[1] Noise Figure dB 1.0
IP1dB Input 1dB Compressed Power dBm -5.9
IIP3[3] Input 3rd Order Intercept Point (2-tone @ Fc +/- 2.5MHz) dBm +2.7
S11 Input Return Loss dB -11
S22 Output Return Loss dB -11
S12 Reverse Isolation dB -29
Idd Supply DC current at Shutdown (SD) voltage Vsd=2.7V mA 6
Ish Shutdown Current @ VSD = 0V uA 0.3
Notes:
1. NF is measured at DUT input leads with board loss deembedded.
2. Measurements at 1.575GHz obtained using demo board described in Figures 4.
3. 1.575GHz IIP3 test condition: FRF1 = 1572.5 MHz, FRF2 = 1577.5 MHz with input power of -20dBm per tone measured at the worst case side band.
4
Circuit Symbol Size Description
L1 0201 22nH Inductor (Murata LQP03TN22NH00)
L2 0201 2.6nH Inductor (Murata LQP03TN2N6B00)
L3 0201 10nH Inductor (Murata LQP03TN10NH00)
L4 0201 39nH Inductor (Murata LQP03TN39NJ00)
C1 0201 0.1uF Capacitor (Murata GRM033R60J104K)
C2 0201 47pF Capacitor (Murata GRM0335C1E470J)
C3 0201 330pF Capacitor (Murata GRM033R71E331K)
R1 0201 10ohm Resistor
R2 0201 8.2Kohm Resistor (For biasing condition as stated in Table 1a/b)
5.6Kohm Resistor (For biasing condition as stated in Table 1c)
Figure 1. Demo Board and application circuit components table
5
Figure 2. Demo board and application schematic diagram
Notes:
1. Pin 4 must be left unconnected
2. L3 and L4 form the input matching network. C2 and L2 form a matching network at the output of the LNA.
3. L1 and R1 isolates the demoboard from external disturbances during measurement. It is not needed in actual application. Likewise, C1 and C3
mitigate the e ect of external noise pickup on the Vdd and SD lines respectively. These components are not required in actual operation.
4. Bias control is achieved by either varying the SD voltage with/without R2, or  xing the SD voltage to Vdd and adjusting R2 for the desired current.
R2 = 8.2 kOhm will result in 4mA when Vdd = 2.85V, Vsd = 1.8V or Vdd = 1.8V, Vsd = 2.6V. R2 = 5.6 kOhm will result in 6mA when Vdd = Vsd = 2.7V.
C3
R2 (Rbias)
Bias/control
1
2
3
6
5
4
R1 L1
C1
C2
L2
L3
L4 NU
NU
RFin
Vsd
Vd
RFout
MGA-231T6
[1]
(R1 and L1 optional,
see notes [3] below)
(C3 and R2 are optional,
see notes [3, 4] below)
6
0
1
2
3
4
5
6
7
8
9
10
0 5 10 15 20 25 30 35 40
Rbias (KOhm)
Idd (mA)
0
1
2
3
4
5
6
7
8
0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0
Vsd (V)
Id (mA)
Vdd=1.8V
Vdd=2.7V
Vdd=2.85V
Vdd=3.3
0
50
100
150
200
250
300
350
0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0
Vsd (V)
Isd (uA)
0
1
2
3
4
5
6
7
8
9
10
123456789
Idd (mA)
Vsd (V)
0.0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
123456789
Idd (mA)
Isd (mA)
Vdd=1.8V
Vdd=2.7V
Vdd=2.85V
Vdd=3.3
Vdd=1.8V
Vdd=2.7V
Vdd=2.85V
Vdd=3.3
Vdd=1.8V
Vdd=2.7V
Vdd=2.85V
Vdd=3.3
MGA-231T6 Typical Performance Curves at 25°C, R2 = 8.2Kohm (unless speci ed otherwise)
Figure 3. Idd vs Rbias at Vdd= 2.85V, Vsd =1.8V Figure 4. Idd vs Vsd vs Vdd
Figure 5. Isd vs Vsd vs Vdd Figure 6. Vsd vs Idd vs Vdd
Figure 7. Isd vs Idd vs Vdd
7
13
14
15
16
17
18
19
123456789
Id (mA)
Gain (dB)
T=-40°C
T=25°C
T= 85°C
-16
-14
-12
-10
-8
-6
-4
-2
0
1.6 1.8 2 2.2 2.4 2.6 2.8 3 3.2 3.4
Vdd (V)
IP1dB (dB)
3mA
4mA
5mA
6mA
7mA
3mA
4mA
5mA
6mA
7mA
-5
-4
-3
-2
-1
0
1
2
3
4
5
123456789
Id (mA)
IIP3 (dBm)
-40°C
25°C
85°C
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1.8
123456789
Id (mA)
NF (dB)
-8
-6
-4
-2
0
2
4
1.6 1.8 2 2.2 2.4 2.6 2.8 3 3.2 3.4
Vdd (V)
IIP3 (dB)
T=-40°C
T=25°C
T= 85°C
MGA-231T6 Typical Performance Curves at 25°C, R2 = 8.2Kohm, Vdd = 2.85V, Vsd = 1.8V (unless speci ed otherwise)
Figure 8. Gain vs Idd vs Temp Figure 9. NF vs Idd vs Temp
Figure 10. IP1dB vs Vdd vs Idd Figure 11. IIP3 vs Vdd vs Idd
Figure 12. IIP3 vs Id vs Temp
8
7
7.1
7.2
7.3
7.4
7.5
7.6
-40 -20 0 20 40 60 80 100
Temperature (°C)
Out of Band Gain Compression (dBm)
-3.5
-3.0
-2.5
-2.0
-1.5
-1.0
-0.5
0.0
-40 -20 0 20 40 60 80 100
Temperature (°C)
Out of Band Gain Compression (dBm)
2 4 6 8 10 12 14 16 18020
1.0
1.2
1.4
1.6
1.8
0.8
2.0
freq, GHz
24681012141618020
1.0
1.2
1.4
1.6
1.8
0.8
2.0
freq, GHz
Mu_25C..Mu1
Mu_85C..Mu1
Mu_n40C..Mu1
Mu_25°C..MuPrime1
Mu_85°C..MuPrime1
Mu_n30°C..MuPrime1
MGA-231T6 Typical Performance Curves at 25°C, R2 = 8.2Kohm, Vdd = 2.85V, Vsd = 1.8V (unless speci ed otherwise)
Figure 13. Input signal required at 890MHz interference signal to cause 1dB
gain compression at 1.575GHz vs Temp
Figure 14. Input signal required at 1885MHz interference signal to cause 1dB
gain compression at 1.575GHz vs Temp
Figure 15. Edwards-Sinsky Output Stability Factor (Mu’) vs Freq vs Temp Figure 16. Edwards-Sinsky Input Stability Factor (Mu’) vs Freq vs Temp
9
MGA-231T6 Scattering Parameter Measurement Reference Planes
Figure 17. Scattering parameter measurement reference planes
LNA
RFin
(pin2)
RFout
(pin5)
Vdd (pin6)
Vsd (pin1)
L2
C2
REFERENCE
PLANE
REFERENCE
PLANE
Packaged LNA
10
MGA-231T6 Scattering Parameter Measurement with Vdd = 2.85V, Idd = 4mA, L2 = 2.7nH, C2 = 47pF (Murata 0402)
The S-parameters measurement reference planes are described in Figure 20. The PCB is 10mils Rogers R04350.
Freq
(GHz)
S11 S11 S21 S21 S12 S12 S22 S212
Mag. Ang. Mag. Ang. Mag. Ang. Mag. Ang.
0.5 0.9798 -9.89 0.0963 -36.96 0.0001 72.50 0.9905 -22.07
0.6 0.9768 -11.15 0.1766 -42.68 0.0001 105.74 0.9896 -27.89
0.7 0.9721 -12.97 0.2867 -46.41 0.0001 -105.96 0.9824 -33.24
0.8 0.9610 -14.87 0.4312 -52.26 0.0005 -96.68 0.9865 -38.66
0.825 0.9610 -15.29 0.4736 -53.91 0.0006 -99.26 0.9846 -40.24
0.9 0.9595 -16.65 0.6228 -59.12 0.0011 -106.29 0.9775 -45.14
1.0 0.9497 -18.59 0.8854 -66.84 0.0020 -112.56 0.9724 -52.47
1.1 0.9473 -20.44 1.2555 -76.14 0.0033 -118.68 0.9488 -61.90
1.2 0.9442 -22.51 1.8077 -87.97 0.0057 -127.32 0.9080 -74.64
1.3 0.9428 -25.02 2.6291 -104.60 0.0094 -140.81 0.8036 -94.23
1.4 0.9291 -28.19 3.7096 -129.38 0.0150 -162.71 0.5691 -128.90
1.5 0.8949 -31.20 4.4052 -162.49 0.0199 167.72 0.2613 143.17
1.575 0.8580 -32.12 4.2251 173.74 0.0206 144.86 0.3863 57.90
1.6 0.8509 -32.20 4.0805 167.08 0.0201 139.73 0.4571 43.57
1.7 0.8322 -32.42 3.4089 145.69 0.0178 121.96 0.6747 9.53
1.8 0.8192 -33.14 2.8216 131.20 0.0163 110.98 0.7861 -9.12
1.885 0.8117 -34.05 2.4718 122.85 0.0150 105.16 0.8270 -19.02
1.9 0.8111 -34.21 2.4326 121.83 0.0146 105.00 0.8299 -20.06
2.0 0.7983 -35.49 2.1754 112.43 0.0145 100.71 0.8839 -28.30
2.3 0.7656 -39.34 1.6197 92.63 0.0129 91.76 0.9307 -47.34
2.4 0.7505 -40.82 1.4963 87.10 0.0130 88.84 0.9392 -52.37
2.5 0.7406 -42.16 1.3963 82.55 0.0125 86.98 0.9352 -56.83
3.0 0.6912 -48.25 1.0547 59.18 0.0129 83.70 0.9457 -77.19
3.5 0.6528 -50.02 0.8340 40.67 0.0137 82.89 0.9577 -94.75
4.0 0.6212 -53.48 0.6803 23.01 0.0148 83.06 0.9514 -111.12
4.5 0.5904 -57.99 0.5660 5.64 0.0162 81.74 0.9504 -126.49
5.0 0.5626 -63.00 0.4713 -11.29 0.0180 82.40 0.9579 -141.84
6.0 0.5379 -73.85 0.3100 -44.48 0.0233 83.15 0.9519 -174.05
7.0 0.5274 -87.80 0.1785 -74.89 0.0313 77.85 0.9567 159.24
8.0 0.5802 -109.03 0.0871 -100.06 0.0292 60.47 0.9583 139.16
9.0 0.4642 -159.02 0.1084 -116.73 0.0774 -6.65 0.9273 119.66
10.0 0.3145 -125.14 0.1770 135.02 0.2135 91.76 0.8623 103.49
11.0 0.4577 -156.21 0.3001 69.20 0.3397 41.97 0.7179 81.58
12.0 0.3568 -141.87 0.1551 -21.83 0.1567 -64.81 0.8292 92.01
13.0 0.5951 176.57 0.1368 19.31 0.0913 25.82 0.9341 68.61
14.0 0.7567 150.52 0.2047 9.28 0.1740 14.51 0.9165 59.31
15.0 0.8813 136.71 0.2206 0.14 0.1940 8.93 0.9168 52.67
16.0 0.9091 113.12 0.2959 -17.28 0.2823 -12.29 0.8855 36.13
17.0 0.9285 90.82 0.3197 -37.74 0.3132 -35.24 0.8701 22.96
18.0 0.8777 72.48 0.3138 -55.71 0.3095 -55.02 0.8879 12.63
19.0 0.5801 42.49 0.3116 -80.45 0.3089 -81.70 0.8591 2.20
20.0 0.9040 50.05 0.3900 -72.66 0.3890 -75.30 0.8966 -5.51
11
MGA-231T6 Scattering Parameter Measurement with Vdd = 1.8V, Idd = 4mA, L2 = 2.7nH, C2 = 47pF (Murata 0402)
Freq
(GHz)
S11 S11 S21 S21 S12 S12 S22 S212
Mag. Ang. Mag. Ang. Mag. Ang. Mag. Ang.
0.5 0.9825 -10.15 0.0906 -37.07 0.0001 86.13 0.9960 -21.99
0.6 0.9793 -11.47 0.1661 -43.04 0.0000 105.28 0.9923 -27.93
0.7 0.9765 -13.31 0.2704 -46.77 0.0002 -106.21 0.9896 -33.11
0.8 0.9663 -15.29 0.4063 -52.89 0.0007 -101.05 0.9904 -38.70
0.825 0.9665 -15.75 0.4463 -54.48 0.0008 -102.37 0.9877 -40.10
0.9 0.9648 -17.15 0.5876 -59.88 0.0014 -107.63 0.9830 -45.00
1.0 0.9565 -19.15 0.8336 -67.85 0.0024 -113.29 0.9745 -52.43
1.1 0.9558 -21.13 1.1806 -77.33 0.0041 -119.68 0.9487 -61.69
1.2 0.9526 -23.33 1.6903 -89.41 0.0069 -128.17 0.9027 -74.29
1.3 0.9524 -26.00 2.4390 -106.13 0.0112 -141.68 0.7914 -93.29
1.4 0.9391 -29.42 3.4006 -130.68 0.0176 -163.17 0.5493 -125.98
1.5 0.9028 -32.66 4.0160 -162.73 0.0232 168.35 0.2205 148.71
1.575 0.8646 -33.73 3.8833 174.11 0.0242 146.51 0.3438 55.97
1.6 0.8564 -33.84 3.7630 167.55 0.0237 141.31 0.4174 41.76
1.7 0.8349 -34.17 3.1833 146.24 0.0214 123.70 0.6451 8.79
1.8 0.8209 -34.87 2.6573 131.61 0.0197 112.37 0.7650 -9.46
1.885 0.8131 -35.85 2.3409 123.12 0.0183 106.92 0.8116 -19.18
1.9 0.8123 -36.02 2.3042 121.97 0.0179 106.42 0.8165 -20.30
2.0 0.8002 -37.32 2.0699 112.57 0.0177 101.62 0.8725 -28.41
2.3 0.7686 -41.43 1.5526 92.26 0.0158 91.80 0.9291 -47.46
2.4 0.7548 -42.99 1.4381 86.59 0.0160 88.74 0.9396 -52.50
2.5 0.7451 -44.42 1.3436 81.95 0.0153 87.03 0.9358 -56.93
3.0 0.6979 -50.99 1.0233 58.01 0.0160 82.57 0.9459 -77.14
3.5 0.6580 -53.48 0.8159 39.03 0.0168 80.94 0.9576 -94.78
4.0 0.6245 -57.81 0.6701 20.89 0.0182 79.81 0.9540 -111.28
4.5 0.5943 -63.28 0.5618 3.19 0.0199 78.00 0.9543 -126.53
5.0 0.5684 -69.23 0.4726 -14.19 0.0221 77.59 0.9607 -141.88
6.0 0.5415 -82.60 0.3162 -48.43 0.0284 75.74 0.9560 -174.16
7.0 0.5339 -100.27 0.1857 -80.08 0.0366 69.40 0.9595 159.04
8.0 0.5945 -125.24 0.0921 -106.89 0.0329 50.49 0.9613 139.04
9.0 0.5000 -3.84 0.1101 -120.20 0.0903 164.34 0.9294 119.46
10.0 0.2489 -146.57 0.1819 132.97 0.2441 81.85 0.8589 103.44
11.0 0.4126 1.84 0.2993 64.47 0.3721 30.62 0.7145 82.67
12.0 0.2770 -159.67 0.1565 -27.13 0.1713 -74.37 0.8323 91.53
13.0 0.5459 159.23 0.1300 13.95 0.0924 15.06 0.9377 68.53
14.0 0.6920 135.03 0.1960 3.18 0.1735 3.55 0.9183 59.36
15.0 0.8035 124.06 0.2092 -4.85 0.1888 -0.19 0.9206 52.63
16.0 0.8182 101.67 0.2785 -21.97 0.2692 -20.20 0.8893 36.32
17.0 0.8337 81.30 0.3034 -42.00 0.3002 -41.91 0.8757 22.99
18.0 0.8130 64.98 0.2975 -57.51 0.2945 -58.68 0.8962 12.50
19.0 0.5099 37.02 0.2882 -81.85 0.2870 -84.34 0.8667 2.04
20.0 0.8470 45.58 0.3755 -74.73 0.3752 -78.06 0.9026 -5.60
12
Noise Parameters
The Noise parameters are measured using source pull method. Figure 20 shows the input and output reference planes.
The PCB is 10mils Rogers R04350.
MGA-231T6 Typical Noise Parameters
25°C, Freq = 1.575GHz, Vdd = 2.85V, Idd = 4mA
Freq
(GHz)
Fmin
(dB)
Gamma Opt
Mag. Ang. Rn/50
1 0.625 0.812 23.095 0.6268
1.575 0.67 0.785 33.77 0.5286
2 0.71 0.783 38.945 0.5296
25°C, Freq = 1.575GHz, Vdd = 2.85V, Idd = 8mA
Freq
(GHz)
Fmin
(dB)
Gamma Opt
Mag. Ang. Rn/50
1 0.585 0.8005 24.69 0.5597
1.575 0.655 0.775 34.98 0.4795
2 0.645 0.776 39.835 0.4683
Package Dimensions
Part Number Ordering Information
Part Number No. of Devices Container
MGA-231T6-BLKG 100 Antistatic bag
MGA-231T6-QC1 3000 7” Reel
MGA-231T6-TR1G 3000 7" Reel
Pin #1 Indicator
R0.10
0.15
1.10
1.20
0.50
0.20
0.20
Bottom ViewSide ViewTop View
0.40±0.05
2.00±0.05
Pin #1 Dot by Marking
1.30±0.05 31YM
All units are in mm
13
Stencil Outline and Combined PCB Land Patterns Stencil Layout
PCB Land Patterns
1.700
0.435
0.230
Combined Land Pattern & Stencil Layouts
(dimensions in mm)
0.260
0.286
Stencil Outline Drawing
(dimension in mm)
0.260
0.260
0.230
0.310
0.500
1.960
1.700
0.435
0.510
Note 1. Stencil thickness = 4 mils
PCB Land Pattern Without Via
(dimension in mm)
PCB Land Pattern With Via
(dimension in mm)
0.500
0.500
0.286
0.286
0.386
0.386
0.310
0.230
0.435
0.445
1.700
1.100
0.435
1.700
1.100
0.350
0.300
0.350
0.333
1.300
14
Device Orientation
Tape Dimensions
Dimensions are in millimeters
USER FEED DIRECTION
TOP VIEW END VIEW
USER
FEED
DIRECTION COVER TAPE
CARRIER
TAPE
REEL
31YM 31YM 31YM
8.00
+0.30/-0.10
4.0 ± 0.10
4.0 ± 0.10
2.00 ± 0.05
3.50 ± 0.05
1.75 ± 0.10
1.50 ± 0.10
0.20 0.20 ± 0.15
2.17 ± 0.05 1.67 ± 0.05
45° MAX. 45° MAX.
0.73 ± 0.05
AoKoBo
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Data subject to change. Copyright © 2005-2012 Avago Technologies. All rights reserved.
AV02-2212EN - March 2, 2012
Reel Dimensions (7 inch reel)
Ø178.0±1.0
Ø55.0±0.5
SEE DETAIL "X"
65°
45°
60°
EMBOSSED RIBS
RAISED: 0.25mm, WIDTH: 1.25mm 14.4*
MAX.
Ø51.2±0.3
Slot hole ‘a’
RECYCLE LOGO FRONT VIEW
-0.0
+1.5*
8.4
FRONT BACK
FRONT BACK
Ø178.0±1.0
7.9 - 10.9*
Slot hole ‘b’
BACK VIEW
R5.2
R10.65