Owner's Manual for SEQUANS COMMUNICATIONS models including: CA410A M.2 Model, CA410A, M.2 Model, Model

CA410 Data Sheet | Rev. 3a

Segment 002 of User Manual

Sequans Communications CA410A 2AAGMCA410A 2AAGMCA410A ca410a

Segment 001 of User Manual

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Interfaces Interfaces Description for M.2 Model
Figure 2: Position of the connectors on the M.2 board (in mm) The dimensions (in mm) of the RF connector (FoxconnTM KK12011-02-7H) is given below:

Figure 3: RF Connector details

9

CA410 Data Sheet Rev. 3a

Interfaces Interfaces Description for M.2 Model

2.1.4 Power
Table 5: Power Pads Operational Values

Pin

Name

Supply Dir. Min Value

2, 4, 70, 72, 74

VBAT

36

SIM_VCC 4

N/A
1.8 V 3.0 V

In 3.2 V 1.62 V
Out 2.7 V

Typical Operational Value

Max Value

3GPP RF Compliant

5
Functional

3.3 V

4.4 V

4.6 V

1.8 V 3.0 V

1.98 V 3.3 V

2.1.5 (U)SIM
Table 6: (U)SIM Signals

Pin

Name

30

SIM_RST

32

SIM_CLK

34

SIM_IO

36

SIM_VCC 6

66

SIM_DETECT 7

Supply 1.8 V/3.0 V 1.8 V/3.0 V 1.8 V/3.0 V 1.8 V/3.0 V
1.8 V

Direction Out Out In/Out Out
In

2.1.6 USB
Table 7: USB Signals

Pin

Name

7

USB_D+

9

USB_D-

Supply 3.3 V 3.3 V

Direction In/Out In/Out

2.1.7 UART
Table 8: UART Signals

Pin

Name

63

UART0_SOUT

65

UART0_SIN

Supply 1.8 V 1.8 V

Direction Out Out

8
Pad type
BIDIR_PU BIDIR_PU

Reset State OUTPUT INPUT

4 See also Section (U)SIM. 5 Functional behavior of the module with possible degradation of RF performances. 6 See range of values in Table 5. 7 SIM_DETECT is active HIGH (HIGH when a card is present, LOW when no card is present) 8 UART pad types are BIDIR_PU as detailed in Table 12. All their electrical characteristics are detailed in Table 13.

10

CA410 Data Sheet Rev. 3a

Interfaces Interfaces Description for M.2 Model

2.1.8 Non Interfacing Signals
Table 9: Non Interfacing Signals

Pin Name

Supply

9
Direction Pin Type

Output Reset Class State

Default Setting

6

MODULE_PWR_EN

VDD_PWR_EN In (see Table 11)

N/A

N/A N/A N/A

10 NETWORK_LED_N

1.8 V

Out

BIDIR_PU 4 mA INPUT INPUT,

PULL-UP

23 WAKE_ON_WAN_N (see 1.8 V below)

Out

See below N/A N/A N/A

67 RESET_N (see below)

1.8 V

In

N/A

N/A N/A N/A

RESET_N

Active low (RESET). This signal is used to reset the module. The following timing requirement applies to the signals VBAT1, MODULE_PWR_EN and RESET_N. It must be respected for proper module behaviour.

VBAT1 MODULE_PWR_EN
RESET_N

ts ts
Cold start

Figure 4: VBAT1, MODULE_PWR_EN and RESET_N Signals Timing Requirement for Cold Start

VBAT1

MODULE_PWR_EN RESET_N

ts Warm start

Figure 5: VBAT1, MODULE_PWR_EN and RESET_N Signals Timing Requirement for Warm Start
VBAT1

MODULE_PWR_EN RESET_N

th Reset cycle

Figure 6: VBAT1, MODULE_PWR_EN and RESET_N Signals Timing Requirement for Reset Cycle

Minimum values are listed in Table 10

9 Pad types are detailed in Table 12. All their electrical characteristics are detailed in Table 13. 11

CA410 Data Sheet Rev. 3a

Interfaces Interfaces Description for the LCC Model

Table 10: VBAT1, MODULE_PWR_EN and RESET_N Timing Values

Symbol ts ts1
th1

Description

Minimum Duration

VBAT1 setup time 0 ms

RESET_N setup time

1 ms

RESET_N hold time 1 µs

Maximum Duration -
-

WAKE_ON_WAN_N

Open drain, active low. This pad wakes up the host. Requires a 10 k pull-up resistor on host side. If unused, do not connect. If the host does support USB suspend-resume but not remote wake-up function, the WoWWAN# M.2 signal is needed to wake up the host.

Table 11: DC Characteristics for MODULE_PWR_EN, Voltage VDD_PWR_EN

Parameter
VIL Input Low Voltage
VIH Input High Voltage

Min.

Nom.

Max.

Unit

-0.3

0.4

V

1.1

VBAT

V

2.2

Interfaces Description for the LCC Model
Data for the LCC model will be provided in a future edition of this document.

2.3 Digital I/O Characteristics
The voltage and current characteristics of the various I/O pads of the CA410 are given in the tables below. Table 12 details the various pad types listed in CA410 signals list. Table 12: Pad Types Detail

Pad Type Analogue BIDIR_PD BIDIR_PU IN

Description

Maximum Input High Voltage

Analogue (or power for powers and ground for Not Applicable grounds)

1.8 V in/out with software controlled internal pull- VIH max = 3.6 V down. Refer to Table 13 for DC I/O characteristics.

1.8 V in/out with software controlled internal pull- VIH max = 3.6 V up. Refer to Table 13 for DC I/O characteristics.

1.8V input.

VIH max = 3.6 V

12

CA410 Data Sheet Rev. 3a

Interfaces Digital I/O Characteristics

Pad Type IN_PD
IN_PU OUT

Description

Maximum Input High Voltage

1.8 V input with software controlled internal pull- VIH max = 3.6 V down. Refer to Table 13 for DC I/O characteristics.

1.8V input with software controlled internal pull-up. VIH max = 3.6 V

1.8 V output. Refer to Table 13 for DC I/O VIH max = 3.6 V characteristics.

Refer to CA410 pin list for the type of I/O pad used on every termination.
· The Minimum values for IOL and IOH should not be exceeded to guarantee that the logical level are not spoiled for each pad type.
· The Nominal values for IOL and IOH represent the nominal values for the pad type. They are provided for information only.
· The Maximum values for IOL and IOH represent the maximal values for the pad type. They are provided for information only.
Table 13: DC Characteristics for Digital I/Os, Voltage 1.8 V

Parameter
VIL Input Low Voltage

Drive Strength

Min. Nom. Max. Unit

-0.3

0.63 V

VIH Input High Voltage

1.17

3.6 V

VT Threshold Point

0.79 0.87 0.94 V

VT+ Schmitt Trigger Low to High Threshold Point

1 1.12 1.22 V

VTSchmitt Trigger High to Low Threshold Point

0.61 0.71 0.8 V

VT PU Threshold Point with Pull-up Resistor Enabled

0.79 0.86 0.93 V

VT PD Threshold Point with Pull-down Resistor Enabled

0.8 0.87 0.95 V

VT+ PU

1

Schmitt Trigger Low to High Threshold Point with Pull-up Resistor Enabled

1.12 1.21 V

VT- PU

0.61 0.7 0.8 V

Schmitt Trigger High to Low Threshold Point with Pull-up Resistor Enabled

VT+ PD Schmitt Trigger Low to High Threshold Point with Pull-down Resistor Enabled

1.01 1.13 1.23 V

13

CA410 Data Sheet Rev. 3a

Interfaces Digital I/O Characteristics

Parameter

Drive Strength

VT- PD Schmitt Trigger High to Low Threshold Point with Pull-down Resistor Enabled

II Input Leakage Current @ VI=1.8V or 0V

IOZ Tri-state Output Leakage Current @ VO=1.8V or 0V

Input Capacitance

RPU Pull-up Resistor

RPD Pull-down Resistor

VOL Output Low Voltage

VOH Output High Voltage IOL Low Level Input Current at VOL(max)
IOH High Level Output Current at VOH(max)

2 mA 4 mA 8 mA 2 mA 4 mA 8 mA

Min. Nom. Max. Unit 0.62 0.72 0.81 V

±10 µA

±10 µA

3 56 89

pF 148 k

52 90 167 k

0.45 V

1.35

V

1.2 2.2 2.3 4.3 4.6 8.6 1.0 2.4 2.0 4.7 4.0 9.4

3.6 mA 7.1 mA 14.3 mA 4.6 mA 9.2 mA 18.4 mA

14

CA410 Data Sheet Rev. 3a

3 Reliability and Radio performance

3.1 Reliability Figures

The reliability test plan for the CA410 comprises the steps below:

Item Pro-con
TC 1000
THB
Environmental Testing A Cold Environmental Testing B Dry Heat HTOL
HTS LTS Micro Analysis (MA) Shock

DQA Test Stress Conditions
(a) Bake: 125°C / 24 h (b) MSL3: 30°C / 60% RH, 192 h (c) SAT (CSAM & TSCAN) (d) X-ray (e) Reflow 3 cycles @ Tp: 250 ± 2°C (f) SAT (CSAM & TSCAN) Temperature Cycling (TC): -40°C to +85°C Air to air 23 min Ramp rate 20°C / min 1000 cycles Temperature Humidity Bias Test: 85°C, 85% RH Vcc max 1000 h +168/-24 h Environmental Testing - Test A Cold -40 °C, 96 h Environmental Testing - Test B Dry Heat +85 °C, 1000 h High Temperature Operation Test: 75°C Vcc max Tx: 50% and Rx: 50% 283 h High Temperature Storage Test: +85°C, 1000 h Low Temperature Storage Test: -40°C, 1000 h Micro analysis X-ray SAT, CSA TC = 0 TC = 1000 cycles Mechanical Shock (MS): Half Sine 500 m/s2 11 ms 6 shocks (one for each ± axis)

Standards JESD22-A113

Results *

JESD22-A104 *

JESD22-A101 *

IEC60068-2-1 *

IEC60068-2-2 *

N/A

*

IEC60068-2-2 *

IEC60068-2-1 *

N/A

*

DIN

*

IEC68-2-27

15

CA410 Data Sheet Rev. 3a

Reliability and Radio performance RF Performance

Item Drop Vibration
Human Body Model ESD Charged Device Model ESD Dimensions TCT
Drop (Transportation)

DQA Test Stress Conditions
Drop Test: 1. Height: 80 cm 2. Concrete or steel 3. All surfaces and edges Vibration Test (Vib): Sweep-Sine Vibration: Sinusoidal 10 to 500 Hz 1.0 octave/min 10 sweep cycles for 2h on each axis (X, Y, Z) TA = 25 °C ± 1000 V  ± 2000V TA = 25 °C ± 250 V ± 500 V Package Physical Dimensions (including `warpage') Temperature Change Test: 10 cycles One cycle follows these steps (roughly 7+ h): Ramp ambient (23°C) to -40°C at 3°C / min 3 h at -40°C Ramp to 85°C at 3°C / min 3 h at 85°C Ramp 85°C to 23°C at 3°C / min Free Fall: 1 corner 3 edges and 6 faces at a height of 76 cm.

Standards

Results

DIN

*

IEC68-2-31

ETS 300019-2-7

DIN IEC68-2-6 * EIA/TIA 571 §4.1.1.2

JS-001

*

JESD22-A114

JS-002

*

STM5.3.1

N/A

*

IEC60068-2-14 *

ASTM D5276 *

*: All results will be included in a future version of this document.

3.2

RF Performance
The RF performance figures of the CA410 M will be given in a future edition of this document.

3.3

Power Consumption
The power consumption figures for the CA410 M will be given in a future edition of this document.

16

CA410 Data Sheet Rev. 3a

4 Mechanical Characteristics
4.1 Device Marking

Figure 7: CA410 Shield Marking Description
The elements marked on the package are: · Sequans's logo · CA410 product name · Cassiopeia platform name · RoHS logo · FCC ID: 2AAGMCA410A · IC/ISED: 12732A-CA410A · IMEI as digits and QR code · The module Serial Number as digits and QR code:
­ VVV: 4MA ­ YYMMDD: Manufacturing date ­ LLLL: tracking batch number ­ SSS: three-digits serial number (HEX format 000 to FFF) · Manufacturing country (VN: Vietnam)

17

CA410 Data Sheet Rev. 3a

Mechanical Characteristics M.2 Device

4.2
4.2.1

M.2 Device
Mechanical Characteristics

4.2.2

Figure 8: Mechanical Description The dimensions shown in Figure 8 are in millimeters. The CA410 M.2 complies to the M.2 specification, type 3042-S3-B.
Packing
The CA410 M.2 is delivered in tray. One tray can hold up to 40 pieces. 1 box can contain 10 trays, thus up to 400 pieces. This is represented on Figure 9.

18

CA410 Data Sheet Rev. 3a

Mechanical Characteristics M.2 Device

Figure 9: CA410 M.2 Packing

19

CA410 Data Sheet Rev. 3a

Mechanical Characteristics LCC Device

4.3
4.3.1

LCC Device
Mechanical Characteristics

4.3.2

Figure 10: Mechanical Description The dimensions shown in Figure 10 are in millimeters.
Packing
The CA410 LCC is delivered in reels. One reel can hold up to 500 pieces. 1 box can contain 2 reels, thus up to 1000 pieces. This is represented on Figure 11.

Figure 11: CA410 LCC Packing

20

CA410 Data Sheet Rev. 3a