The Huawei nova 7i and vivo Y19s Pro represent compelling options in the competitive mid-range smartphone market. While both aim to deliver a balanced experience, they diverge significantly in their core hardware, particularly in their chipsets and charging capabilities. This comparison dissects these differences to determine which device best suits your needs.
🏆 Quick Verdict
For the average user prioritizing sustained performance and faster charging, the Huawei nova 7i emerges as the stronger contender. Its Kirin 810, built on a 7nm process, offers a noticeable performance advantage over the vivo Y19s Pro’s Unisoc Tiger T612, despite the latter’s slightly faster charging wattage.
| Network |
|---|
| 2G bands | GSM 850 / 900 / 1800 / 1900 | GSM 850 / 900 / 1800 / 1900 |
| 3G bands | HSDPA 850 / 900 / 2100 | HSDPA 800 / 850 / 900 / 1700(AWS) / 2100 |
| 4G bands | 1, 3, 5, 7, 8, 20, 28, 38, 40, 41 | 1, 2, 3, 4, 5, 7, 8, 18, 19, 20, 28, 34, 38, 39, 40, 41 - JNY-L21A, JNY-L01A, JNY-L21B |
| Speed | HSPA, LTE | HSPA 42.2/5.76 Mbps, LTE (2CA) Cat13 400/75 Mbps |
| Technology | GSM / HSPA / LTE | GSM / CDMA / HSPA / LTE |
| | - | 1, 2, 3, 4, 5, 7, 8, 18, 19, 28, 34, 38, 39, 40, 41 - JNY-L22A, JNY-L02A, JNY-L22B |
| Launch |
|---|
| Announced | 2025, June 10 | 2020, January 30. Released 2020, February 14 |
| Status | Available. Released 2025, June 10 | Discontinued |
| Body |
|---|
| Build | Glass front, plastic back, plastic frame | Glass front, plastic back, plastic frame |
| Dimensions | 165.8 x 76.1 x 8.1 mm (6.53 x 3.00 x 0.32 in) | 159.2 x 76.3 x 8.7 mm (6.27 x 3.00 x 0.34 in) |
| SIM | Nano-SIM + Nano-SIM | · Nano-SIM· Nano-SIM + Nano-SIM |
| Weight | 200 g (7.05 oz) | 183 g (6.46 oz) |
| Display |
|---|
| Resolution | 720 x 1608 pixels, 20:9 ratio (~264 ppi density) | 1080 x 2310 pixels (~398 ppi density) |
| Size | 6.68 inches, 107.4 cm2 (~85.1% screen-to-body ratio) | 6.4 inches, 101.4 cm2 (~83.5% screen-to-body ratio) |
| Type | IPS LCD, 90Hz, 1000 nits (HBM) | IPS LCD |
| Platform |
|---|
| CPU | Octa-core (2x1.8 GHz Cortex-A75 & 6x1.8 GHz Cortex-A55) | Octa-core (2x2.27 GHz Cortex-A76 & 6x1.88 GHz Cortex-A55) |
| Chipset | Unisoc Tiger T612 (12 nm) | Kirin 810 (7 nm) |
| GPU | Mali-G57 | Mali-G52 MP6 |
| OS | Android 15, Funtouch 15 | Android 10, EMUI 10, no Google Play Services |
| Memory |
|---|
| Card slot | microSDXC (dedicated slot) | Nano Memory (uses shared SIM slot) |
| Internal | 64GB 4GB RAM, 128GB 6GB RAM, 256GB 6GB RAM, 256GB 8GB RAM | 128GB 8GB RAM |
| | - | UFS 2.1 |
| Main Camera |
|---|
| Features | Ring-LED flash, panorama | LED flash, HDR, panorama |
| Quad | - | 48 MP, f/1.8, 26mm (wide), 1/2.0", 0.8µm, PDAF
8 MP, f/2.4, (ultrawide)
2 MP (macro)
Auxiliary lens |
| Single | 50 MP, f/1.8, (wide), 1/1.95", 0.8µm, PDAF
Auxiliary lens | - |
| Video | 1080p@30fps | 1080p@30fps |
| Selfie camera |
|---|
| Features | - | HDR |
| Single | 5 MP, f/2.2 | 16 MP, f/2.0, (wide), 1/3.06", 1.0µm |
| Video | Yes | 1080p@30fps |
| Sound |
|---|
| 3.5mm jack | - | Yes |
| 35mm jack | Yes | Yes |
| Loudspeaker | Yes, with dual speakers | Yes |
| Comms |
|---|
| Bluetooth | 5.2, A2DP, LE | 5.1, A2DP, LE |
| NFC | No | No |
| Positioning | GPS, GLONASS, GALILEO, BDS, QZSS | GPS, GLONASS, GALILEO, BDS, QZSS |
| Radio | FM radio | FM radio (market/region dependent) |
| USB | USB Type-C 2.0, OTG | USB Type-C 2.0, OTG |
| WLAN | Wi-Fi 802.11 a/b/g/n/ac, dual-band | Wi-Fi 802.11 a/b/g/n/ac, dual-band, Wi-Fi Direct |
| Features |
|---|
| Sensors | Fingerprint (side-mounted), accelerometer, proximity, compass | Fingerprint (side-mounted), accelerometer, proximity, compass |
| Battery |
|---|
| Charging | 44W wired, 40% in 30 min
Reverse wired | 40W wired, 70% in 30 min |
| Type | Li-Ion 6000 mAh | Li-Po 4200 mAh |
| Misc |
|---|
| Colors | Pearl Silver, Glossy Black, Glacier Blue | Midnight Black, Crush Green, Sakura Pink |
| Models | - | JNY-L22B, JNY-L21A, JNY-L01A, JNY-L21B, JNY-L22A, JNY-L02A, JNY-LX2 |
| Price | About 100 EUR | About 240 EUR |
vivo Y19s Pro
- 44W fast charging (potentially faster 0-100% time)
- Reverse wired charging for topping up accessories
- Likely a more recent device release
- Unisoc Tiger T612 chipset offers lower performance
- 12nm process less efficient than Kirin 810’s 7nm
Huawei nova 7i
- Kirin 810 chipset delivers superior performance
- 7nm process for better thermal management and efficiency
- Faster charging to 70% in 30 minutes
- 40W charging is slightly slower than Y19s Pro's peak wattage
- May be an older device model
Display Comparison
Neither device boasts a standout display. While specific panel technologies aren't provided, the focus here is on performance. The display quality will likely be similar, with both targeting a 1080p+ resolution typical of this price bracket. Bezels are likely comparable, and color accuracy will depend on software calibration. The real differentiator lies elsewhere.
Camera Comparison
Without detailed sensor information, a direct camera comparison is challenging. However, the chipset plays a crucial role in image processing. The Kirin 810’s ISP (Image Signal Processor) is likely more advanced, enabling better noise reduction, dynamic range, and overall image quality, particularly in low-light conditions. While both phones likely feature multi-camera setups, the processing power of the Kirin 810 will likely give the nova 7i an edge in image quality. We can assume both will have a standard wide, ultrawide, and depth sensor configuration, but the quality of those sensors is unknown.
Performance
The Kirin 810 in the Huawei nova 7i, fabricated on a 7nm process, represents a significant architectural advantage over the 12nm Unisoc Tiger T612 in the vivo Y19s Pro. The Kirin 810’s Cortex-A76 cores, clocked at 2.27 GHz, offer superior single-core performance compared to the Y19s Pro’s 1.8 GHz Cortex-A75 cores. This translates to snappier app launches and smoother multitasking. While both utilize Cortex-A55 efficiency cores, the 7nm process of the Kirin 810 contributes to better thermal efficiency, reducing the likelihood of performance throttling during extended gaming sessions. The GPU within the Kirin 810 also provides a more capable graphics experience.
Battery Life
Both devices offer fast charging, with the vivo Y19s Pro boasting 44W wired charging, reaching 40% in 30 minutes, and the Huawei nova 7i offering 40W, achieving 70% in the same timeframe. While the Y19s Pro has higher wattage, the nova 7i’s faster percentage gain suggests more efficient charging circuitry or a more optimized charging curve. Battery capacity isn’t specified, but the Kirin 810’s superior efficiency could offset a potentially smaller battery in the nova 7i, resulting in comparable real-world battery life.
Buying Guide
Buy the vivo Y19s Pro if you prioritize a newer device with reverse wired charging and are primarily focused on everyday tasks like social media, browsing, and light multimedia consumption. Buy the Huawei nova 7i if you value smoother multitasking, better gaming performance, and faster charging speeds, even if it means opting for a slightly older chipset.
Frequently Asked Questions
❓ Will the Huawei nova 7i struggle with demanding games like PUBG or Call of Duty?
The Kirin 810 is capable of running PUBG and Call of Duty, but you may need to lower graphics settings for a consistently smooth experience. The 7nm process and improved GPU compared to the Y19s Pro’s chipset will provide a more stable frame rate and reduce overheating during prolonged gaming sessions.
❓ Does the Unisoc Tiger T612 in the vivo Y19s Pro have any advantages for everyday use?
For basic tasks like browsing, social media, and video streaming, the Unisoc Tiger T612 is sufficient. However, you may notice slower app loading times and occasional stutters when multitasking compared to the Huawei nova 7i.
❓ Is the 44W charging on the vivo Y19s Pro significantly faster in real-world use than the 40W on the Huawei nova 7i?
While the Y19s Pro has a higher peak wattage, the nova 7i reaches 70% charge in 30 minutes, while the Y19s Pro only reaches 40%. This suggests the nova 7i’s charging circuitry is more efficient, potentially resulting in a similar overall charging time.
